./pgturner5[6]: /.mnt.ma.afc.1972001/lost+found: Permission denied.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: li::  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: 0653-309:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: Cannot:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: open:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: the:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: directory:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
./pgturner5[6]: lost+found.:  not found.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
File *.tif does not exist.
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 6 images processed.  Total time: 00:00:28
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 68 images processed.  Total time: 00:05:57
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 7 images processed.  Total time: 00:00:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 86 images processed.  Total time: 00:04:41
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 103 images processed.  Total time: 00:05:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........find: 0652-018 An expression term lacks a required parameter.
...............................

Image Alchemy finished, 82 images processed.  Total time: 00:04:22
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing.......................................
Generating inverse palette.................................
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 68 images processed.  Total time: 00:03:38
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 99 images processed.  Total time: 00:05:13
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 136 images processed.  Total time: 00:07:14
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 117 images processed.  Total time: 00:06:08
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 118 images processed.  Total time: 00:06:09
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 108 images processed.  Total time: 00:05:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 116 images processed.  Total time: 00:06:01
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 145 images processed.  Total time: 00:07:48
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 178 images processed.  Total time: 00:09:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 130 images processed.  Total time: 00:07:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 120 images processed.  Total time: 00:06:20
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 125 images processed.  Total time: 00:06:45
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 54 images processed.  Total time: 00:02:48
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 161 images processed.  Total time: 00:08:26
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 162 images processed.  Total time: 00:08:35
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 86 images processed.  Total time: 00:04:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 161 images processed.  Total time: 00:08:20
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 158 images processed.  Total time: 00:08:19
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0179u.tif
Writing JPEG file 0179u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0180u.tif
Writing JPEG file 0180u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0181u.tif
Writing JPEG file 0181u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0182u.tif
Writing JPEG file 0182u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0183u.tif
Writing JPEG file 0183u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0184u.tif
Writing JPEG file 0184u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0185u.tif
Writing JPEG file 0185u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0186u.tif
Writing JPEG file 0186u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0187u.tif
Writing JPEG file 0187u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0188u.tif
Writing JPEG file 0188u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0189u.tif
Writing JPEG file 0189u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0190u.tif
Writing JPEG file 0190u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0191u.tif
Writing JPEG file 0191u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0192u.tif
Writing JPEG file 0192u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0193u.tif
Writing JPEG file 0193u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0194u.tif
Writing JPEG file 0194u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0195u.tif
Writing JPEG file 0195u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0196u.tif
Writing JPEG file 0196u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0197u.tif
Writing JPEG file 0197u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0198u.tif
Writing JPEG file 0198u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0199u.tif
Writing JPEG file 0199u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0200u.tif
Writing JPEG file 0200u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0201u.tif
Writing JPEG file 0201u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0202u.tif
Writing JPEG file 0202u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0203u.tif
Writing JPEG file 0203u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0204u.tif
Writing JPEG file 0204u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0205u.tif
Writing JPEG file 0205u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0206u.tif
Writing JPEG file 0206u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0207u.tif
Writing JPEG file 0207u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0208u.tif
Writing JPEG file 0208u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0209u.tif
Writing JPEG file 0209u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0210u.tif
Writing JPEG file 0210u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0211u.tif
Writing JPEG file 0211u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0212u.tif
Writing JPEG file 0212u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0213u.tif
Writing JPEG file 0213u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0214u.tif
Writing JPEG file 0214u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0215u.tif
Writing JPEG file 0215u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0216u.tif
Writing JPEG file 0216u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0217u.tif
Writing JPEG file 0217u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0218u.tif
Writing JPEG file 0218u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0219u.tif
Writing JPEG file 0219u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0220u.tif
Writing JPEG file 0220u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0221u.tif
Writing JPEG file 0221u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0222u.tif
Writing JPEG file 0222u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0223u.tif
Writing JPEG file 0223u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0224u.tif
Writing JPEG file 0224u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0225u.tif
Writing JPEG file 0225u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0226u.tif
Writing JPEG file 0226u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0227u.tif
Writing JPEG file 0227u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0228u.tif
Writing JPEG file 0228u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0229u.tif
Writing JPEG file 0229u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0230u.tif
Writing JPEG file 0230u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0231u.tif
Writing JPEG file 0231u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0232u.tif
Writing JPEG file 0232u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0233u.tif
Writing JPEG file 0233u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0234u.tif
Writing JPEG file 0234u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0235u.tif
Writing JPEG file 0235u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0236u.tif
Writing JPEG file 0236u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0237u.tif
Writing JPEG file 0237u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0238u.tif
Writing JPEG file 0238u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0239u.tif
Writing JPEG file 0239u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0240u.tif
Writing JPEG file 0240u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0241u.tif
Writing JPEG file 0241u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0242u.tif
Writing JPEG file 0242u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0243u.tif
Writing JPEG file 0243u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0244u.tif
Writing JPEG file 0244u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0245u.tif
Writing JPEG file 0245u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0246u.tif
Writing JPEG file 0246u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0247u.tif
Writing JPEG file 0247u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0248u.tif
Writing JPEG file 0248u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0249u.tif
Writing JPEG file 0249u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0250u.tif
Writing JPEG file 0250u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0251u.tif
Writing JPEG file 0251u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0252u.tif
Writing JPEG file 0252u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0253u.tif
Writing JPEG file 0253u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0254u.tif
Writing JPEG file 0254u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0255u.tif
Writing JPEG file 0255u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0256u.tif
Writing JPEG file 0256u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0257u.tif
Writing JPEG file 0257u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0258u.tif
Writing JPEG file 0258u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0259u.tif
Writing JPEG file 0259u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0260u.tif
Writing JPEG file 0260u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0261u.tif
Writing JPEG file 0261u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0262u.tif
Writing JPEG file 0262u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0263u.tif
Writing JPEG file 0263u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0264u.tif
Writing JPEG file 0264u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0265u.tif
Writing JPEG file 0265u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0266u.tif
Writing JPEG file 0266u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0267u.tif
Writing JPEG file 0267u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0268u.tif
Writing JPEG file 0268u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0269u.tif
Writing JPEG file 0269u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0270u.tif
Writing JPEG file 0270u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0271u.tif
Writing JPEG file 0271u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0272u.tif
Writing JPEG file 0272u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0273u.tif
Writing JPEG file 0273u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0274u.tif
Writing JPEG file 0274u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0275u.tif
Writing JPEG file 0275u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 275 images processed.  Total time: 00:14:35
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0179u.tif
Writing JPEG file 0179u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0180u.tif
Writing JPEG file 0180u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0181u.tif
Writing JPEG file 0181u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0182u.tif
Writing JPEG file 0182u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0183u.tif
Writing JPEG file 0183u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0184u.tif
Writing JPEG file 0184u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0185u.tif
Writing JPEG file 0185u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0186u.tif
Writing JPEG file 0186u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0187u.tif
Writing JPEG file 0187u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0188u.tif
Writing JPEG file 0188u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0189u.tif
Writing JPEG file 0189u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0190u.tif
Writing JPEG file 0190u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0191u.tif
Writing JPEG file 0191u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0192u.tif
Writing JPEG file 0192u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0193u.tif
Writing JPEG file 0193u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0194u.tif
Writing JPEG file 0194u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0195u.tif
Writing JPEG file 0195u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0196u.tif
Writing JPEG file 0196u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0197u.tif
Writing JPEG file 0197u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0198u.tif
Writing JPEG file 0198u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0199u.tif
Writing JPEG file 0199u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0200u.tif
Writing JPEG file 0200u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0201u.tif
Writing JPEG file 0201u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0202u.tif
Writing JPEG file 0202u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0203u.tif
Writing JPEG file 0203u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0204u.tif
Writing JPEG file 0204u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0205u.tif
Writing JPEG file 0205u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0206u.tif
Writing JPEG file 0206u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0207u.tif
Writing JPEG file 0207u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0208u.tif
Writing JPEG file 0208u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0209u.tif
Writing JPEG file 0209u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0210u.tif
Writing JPEG file 0210u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0211u.tif
Writing JPEG file 0211u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0212u.tif
Writing JPEG file 0212u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0213u.tif
Writing JPEG file 0213u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0214u.tif
Writing JPEG file 0214u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0215u.tif
Writing JPEG file 0215u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0216u.tif
Writing JPEG file 0216u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0217u.tif
Writing JPEG file 0217u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0218u.tif
Writing JPEG file 0218u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0219u.tif
Writing JPEG file 0219u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0220u.tif
Writing JPEG file 0220u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0221u.tif
Writing JPEG file 0221u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0222u.tif
Writing JPEG file 0222u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0223u.tif
Writing JPEG file 0223u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0224u.tif
Writing JPEG file 0224u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0225u.tif
Writing JPEG file 0225u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0226u.tif
Writing JPEG file 0226u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0227u.tif
Writing JPEG file 0227u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0228u.tif
Writing JPEG file 0228u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0229u.tif
Writing JPEG file 0229u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0230u.tif
Writing JPEG file 0230u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0231u.tif
Writing JPEG file 0231u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0232u.tif
Writing JPEG file 0232u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0233u.tif
Writing JPEG file 0233u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0234u.tif
Writing JPEG file 0234u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0235u.tif
Writing JPEG file 0235u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0236u.tif
Writing JPEG file 0236u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0237u.tif
Writing JPEG file 0237u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0238u.tif
Writing JPEG file 0238u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0239u.tif
Writing JPEG file 0239u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0240u.tif
Writing JPEG file 0240u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0241u.tif
Writing JPEG file 0241u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0242u.tif
Writing JPEG file 0242u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0243u.tif
Writing JPEG file 0243u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0244u.tif
Writing JPEG file 0244u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0245u.tif
Writing JPEG file 0245u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0246u.tif
Writing JPEG file 0246u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0247u.tif
Writing JPEG file 0247u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0248u.tif
Writing JPEG file 0248u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0249u.tif
Writing JPEG file 0249u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0250u.tif
Writing JPEG file 0250u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0251u.tif
Writing JPEG file 0251u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0252u.tif
Writing JPEG file 0252u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0253u.tif
Writing JPEG file 0253u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0254u.tif
Writing JPEG file 0254u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0255u.tif
Writing JPEG file 0255u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 255 images processed.  Total time: 00:13:25
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 165 images processed.  Total time: 00:08:36
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 166 images processed.  Total time: 00:08:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 131 images processed.  Total time: 00:06:46
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0179u.tif
Writing JPEG file 0179u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0180u.tif
Writing JPEG file 0180u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0181u.tif
Writing JPEG file 0181u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0182u.tif
Writing JPEG file 0182u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0183u.tif
Writing JPEG file 0183u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0184u.tif
Writing JPEG file 0184u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0185u.tif
Writing JPEG file 0185u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0186u.tif
Writing JPEG file 0186u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0187u.tif
Writing JPEG file 0187u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0188u.tif
Writing JPEG file 0188u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0189u.tif
Writing JPEG file 0189u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0190u.tif
Writing JPEG file 0190u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0191u.tif
Writing JPEG file 0191u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0192u.tif
Writing JPEG file 0192u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0193u.tif
Writing JPEG file 0193u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0194u.tif
Writing JPEG file 0194u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0195u.tif
Writing JPEG file 0195u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0196u.tif
Writing JPEG file 0196u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0197u.tif
Writing JPEG file 0197u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0198u.tif
Writing JPEG file 0198u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0199u.tif
Writing JPEG file 0199u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0200u.tif
Writing JPEG file 0200u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0201u.tif
Writing JPEG file 0201u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0202u.tif
Writing JPEG file 0202u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0203u.tif
Writing JPEG file 0203u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 203 images processed.  Total time: 00:09:40
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 117 images processed.  Total time: 00:05:44
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 103 images processed.  Total time: 00:05:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 70 images processed.  Total time: 00:03:24
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 51 images processed.  Total time: 00:02:28
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 90 images processed.  Total time: 00:04:24
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0179u.tif
Writing JPEG file 0179u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0180u.tif
Writing JPEG file 0180u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0181u.tif
Writing JPEG file 0181u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0182u.tif
Writing JPEG file 0182u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0183u.tif
Writing JPEG file 0183u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0184u.tif
Writing JPEG file 0184u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0185u.tif
Writing JPEG file 0185u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0186u.tif
Writing JPEG file 0186u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0187u.tif
Writing JPEG file 0187u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0188u.tif
Writing JPEG file 0188u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0189u.tif
Writing JPEG file 0189u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0190u.tif
Writing JPEG file 0190u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0191u.tif
Writing JPEG file 0191u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0192u.tif
Writing JPEG file 0192u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0193u.tif
Writing JPEG file 0193u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0194u.tif
Writing JPEG file 0194u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0195u.tif
Writing JPEG file 0195u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0196u.tif
Writing JPEG file 0196u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0197u.tif
Writing JPEG file 0197u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0198u.tif
Writing JPEG file 0198u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 198 images processed.  Total time: 00:09:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 139 images processed.  Total time: 00:06:50
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0176u.tif
Writing JPEG file 0176u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0177u.tif
Writing JPEG file 0177u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0178u.tif
Writing JPEG file 0178u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0179u.tif
Writing JPEG file 0179u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0180u.tif
Writing JPEG file 0180u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0181u.tif
Writing JPEG file 0181u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0182u.tif
Writing JPEG file 0182u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0183u.tif
Writing JPEG file 0183u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0184u.tif
Writing JPEG file 0184u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0185u.tif
Writing JPEG file 0185u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0186u.tif
Writing JPEG file 0186u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0187u.tif
Writing JPEG file 0187u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0188u.tif
Writing JPEG file 0188u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0189u.tif
Writing JPEG file 0189u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0190u.tif
Writing JPEG file 0190u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0191u.tif
Writing JPEG file 0191u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0192u.tif
Writing JPEG file 0192u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0193u.tif
Writing JPEG file 0193u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0194u.tif
Writing JPEG file 0194u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0195u.tif
Writing JPEG file 0195u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0196u.tif
Writing JPEG file 0196u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0197u.tif
Writing JPEG file 0197u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0198u.tif
Writing JPEG file 0198u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0199u.tif
Writing JPEG file 0199u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0200u.tif
Writing JPEG file 0200u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0201u.tif
Writing JPEG file 0201u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0202u.tif
Writing JPEG file 0202u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0203u.tif
Writing JPEG file 0203u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0204u.tif
Writing JPEG file 0204u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0205u.tif
Writing JPEG file 0205u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0206u.tif
Writing JPEG file 0206u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0207u.tif
Writing JPEG file 0207u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0208u.tif
Writing JPEG file 0208u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0209u.tif
Writing JPEG file 0209u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0210u.tif
Writing JPEG file 0210u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0211u.tif
Writing JPEG file 0211u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0212u.tif
Writing JPEG file 0212u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0213u.tif
Writing JPEG file 0213u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0214u.tif
Writing JPEG file 0214u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0215u.tif
Writing JPEG file 0215u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0216u.tif
Writing JPEG file 0216u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0217u.tif
Writing JPEG file 0217u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0218u.tif
Writing JPEG file 0218u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0219u.tif
Writing JPEG file 0219u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0220u.tif
Writing JPEG file 0220u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0221u.tif
Writing JPEG file 0221u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0222u.tif
Writing JPEG file 0222u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0223u.tif
Writing JPEG file 0223u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0224u.tif
Writing JPEG file 0224u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0225u.tif
Writing JPEG file 0225u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 225 images processed.  Total time: 00:10:56
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 141 images processed.  Total time: 00:06:43
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0153u.tif
Writing JPEG file 0153u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0154u.tif
Writing JPEG file 0154u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0155u.tif
Writing JPEG file 0155u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0156u.tif
Writing JPEG file 0156u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0157u.tif
Writing JPEG file 0157u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0158u.tif
Writing JPEG file 0158u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0159u.tif
Writing JPEG file 0159u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0160u.tif
Writing JPEG file 0160u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0161u.tif
Writing JPEG file 0161u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0162u.tif
Writing JPEG file 0162u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0163u.tif
Writing JPEG file 0163u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0164u.tif
Writing JPEG file 0164u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0165u.tif
Writing JPEG file 0165u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0166u.tif
Writing JPEG file 0166u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0167u.tif
Writing JPEG file 0167u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0168u.tif
Writing JPEG file 0168u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0169u.tif
Writing JPEG file 0169u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0170u.tif
Writing JPEG file 0170u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0171u.tif
Writing JPEG file 0171u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0172u.tif
Writing JPEG file 0172u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0173u.tif
Writing JPEG file 0173u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0174u.tif
Writing JPEG file 0174u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0175u.tif
Writing JPEG file 0175u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 175 images processed.  Total time: 00:08:27
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 92 images processed.  Total time: 00:04:25
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 119 images processed.  Total time: 00:05:44
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 116 images processed.  Total time: 00:05:31
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 147 images processed.  Total time: 00:07:01
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 119 images processed.  Total time: 00:05:45
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 83 images processed.  Total time: 00:04:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0144u.tif
Writing JPEG file 0144u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0145u.tif
Writing JPEG file 0145u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0146u.tif
Writing JPEG file 0146u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0147u.tif
Writing JPEG file 0147u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0148u.tif
Writing JPEG file 0148u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0149u.tif
Writing JPEG file 0149u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0150u.tif
Writing JPEG file 0150u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0151u.tif
Writing JPEG file 0151u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0152u.tif
Writing JPEG file 0152u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 152 images processed.  Total time: 00:07:31
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 138 images processed.  Total time: 00:06:45
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 89 images processed.  Total time: 00:04:20
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 55 images processed.  Total time: 00:04:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 9 images processed.  Total time: 00:00:51
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:14
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 25 images processed.  Total time: 00:02:03
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 10 images processed.  Total time: 00:00:41
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 12 images processed.  Total time: 00:00:54
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 64 images processed.  Total time: 00:04:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 87 images processed.  Total time: 00:04:02
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 55 images processed.  Total time: 00:04:47
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 53 images processed.  Total time: 00:04:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 52 images processed.  Total time: 00:04:19
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 52 images processed.  Total time: 00:04:31
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 50 images processed.  Total time: 00:04:17
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 55 images processed.  Total time: 00:04:42
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 52 images processed.  Total time: 00:04:31
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 46 images processed.  Total time: 00:03:58
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 46 images processed.  Total time: 00:03:51
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 49 images processed.  Total time: 00:04:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:38
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 34 images processed.  Total time: 00:02:58
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 32 images processed.  Total time: 00:02:48
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 36 images processed.  Total time: 00:03:09
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 40 images processed.  Total time: 00:03:26
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 49 images processed.  Total time: 00:04:14
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 32 images processed.  Total time: 00:02:48
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 37 images processed.  Total time: 00:03:13
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 43 images processed.  Total time: 00:03:44
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 39 images processed.  Total time: 00:03:23
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 34 images processed.  Total time: 00:02:58
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 48 images processed.  Total time: 00:04:12
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 44 images processed.  Total time: 00:03:30
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 44 images processed.  Total time: 00:03:51
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 27 images processed.  Total time: 00:02:22
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 44 images processed.  Total time: 00:03:51
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 38 images processed.  Total time: 00:03:20
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 35 images processed.  Total time: 00:03:05
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 56 images processed.  Total time: 00:04:53
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 49 images processed.  Total time: 00:04:13
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 49 images processed.  Total time: 00:04:17
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 56 images processed.  Total time: 00:04:55
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 42 images processed.  Total time: 00:03:42
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 33 images processed.  Total time: 00:02:38
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 57 images processed.  Total time: 00:04:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 44 images processed.  Total time: 00:03:13
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 51 images processed.  Total time: 00:04:03
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 38 images processed.  Total time: 00:03:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 38 images processed.  Total time: 00:03:06
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:17
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 46 images processed.  Total time: 00:03:43
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 54 images processed.  Total time: 00:04:23
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 43 images processed.  Total time: 00:03:27
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 49 images processed.  Total time: 00:03:54
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 35 images processed.  Total time: 00:02:48
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 51 images processed.  Total time: 00:04:08
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 48 images processed.  Total time: 00:03:52
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 39 images processed.  Total time: 00:03:10
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 37 images processed.  Total time: 00:02:58
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:16
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:19
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 36 images processed.  Total time: 00:02:54
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 39 images processed.  Total time: 00:03:07
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 31 images processed.  Total time: 00:02:28
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 9 images processed.  Total time: 00:00:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 99 images processed.  Total time: 00:05:05
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 130 images processed.  Total time: 00:03:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 60 images processed.  Total time: 00:02:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 55 images processed.  Total time: 00:01:51
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 42 images processed.  Total time: 00:03:19
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 11 images processed.  Total time: 00:00:38
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 69 images processed.  Total time: 00:03:35
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 57 images processed.  Total time: 00:03:39
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 46 images processed.  Total time: 00:02:43
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 30 images processed.  Total time: 00:02:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 41 images processed.  Total time: 00:02:55
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 30 images processed.  Total time: 00:01:36
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 39 images processed.  Total time: 00:01:01
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 52 images processed.  Total time: 00:03:23
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 47 images processed.  Total time: 00:02:22
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 92 images processed.  Total time: 00:04:55
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 86 images processed.  Total time: 00:04:36
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 78 images processed.  Total time: 00:04:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 51 images processed.  Total time: 00:03:10
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 66 images processed.  Total time: 00:05:03
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 76 images processed.  Total time: 00:06:08
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 87 images processed.  Total time: 00:07:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 51 images processed.  Total time: 00:04:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 28 images processed.  Total time: 00:02:10
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 32 images processed.  Total time: 00:02:26
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 18 images processed.  Total time: 00:01:46
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 52 images processed.  Total time: 00:04:08
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 60 images processed.  Total time: 00:04:42
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 54 images processed.  Total time: 00:03:58
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 52 images processed.  Total time: 00:03:53
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 37 images processed.  Total time: 00:02:09
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 30 images processed.  Total time: 00:01:37
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 91 images processed.  Total time: 00:04:27
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0112u.tif
Writing JPEG file 0112u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0113u.tif
Writing JPEG file 0113u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0114u.tif
Writing JPEG file 0114u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0115u.tif
Writing JPEG file 0115u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0116u.tif
Writing JPEG file 0116u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0117u.tif
Writing JPEG file 0117u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0118u.tif
Writing JPEG file 0118u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0119u.tif
Writing JPEG file 0119u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0120u.tif
Writing JPEG file 0120u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0121u.tif
Writing JPEG file 0121u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0122u.tif
Writing JPEG file 0122u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0123u.tif
Writing JPEG file 0123u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0124u.tif
Writing JPEG file 0124u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0125u.tif
Writing JPEG file 0125u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0126u.tif
Writing JPEG file 0126u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0127u.tif
Writing JPEG file 0127u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0128u.tif
Writing JPEG file 0128u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0129u.tif
Writing JPEG file 0129u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0130u.tif
Writing JPEG file 0130u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0131u.tif
Writing JPEG file 0131u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0132u.tif
Writing JPEG file 0132u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0133u.tif
Writing JPEG file 0133u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0134u.tif
Writing JPEG file 0134u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0135u.tif
Writing JPEG file 0135u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0136u.tif
Writing JPEG file 0136u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0137u.tif
Writing JPEG file 0137u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0138u.tif
Writing JPEG file 0138u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0139u.tif
Writing JPEG file 0139u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0140u.tif
Writing JPEG file 0140u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0141u.tif
Writing JPEG file 0141u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0142u.tif
Writing JPEG file 0142u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0143u.tif
Writing JPEG file 0143u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 143 images processed.  Total time: 00:07:13
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 62 images processed.  Total time: 00:04:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing.......................................
Generating inverse palette.................................
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 55 images processed.  Total time: 00:04:38
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 62 images processed.  Total time: 00:05:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 71 images processed.  Total time: 00:05:17
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 95 images processed.  Total time: 00:07:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 63 images processed.  Total time: 00:05:21
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0108u.tif
Writing JPEG file 0108u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0109u.tif
Writing JPEG file 0109u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0110u.tif
Writing JPEG file 0110u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0111u.tif
Writing JPEG file 0111u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 111 images processed.  Total time: 00:08:23
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 88 images processed.  Total time: 00:07:15
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 21 images processed.  Total time: 00:00:52
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 38 images processed.  Total time: 00:01:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 79 images processed.  Total time: 00:04:14
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 77 images processed.  Total time: 00:04:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 81 images processed.  Total time: 00:04:25
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 7 images processed.  Total time: 00:00:23
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 75 images processed.  Total time: 00:04:08
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 83 images processed.  Total time: 00:04:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 53 images processed.  Total time: 00:03:25
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 11 images processed.  Total time: 00:00:42
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 52 images processed.  Total time: 00:03:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 52 images processed.  Total time: 00:03:22
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 59 images processed.  Total time: 00:05:01
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:03:33
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 37 images processed.  Total time: 00:03:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 53 images processed.  Total time: 00:04:35
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 46 images processed.  Total time: 00:04:02
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 37 images processed.  Total time: 00:02:52
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 35 images processed.  Total time: 00:02:56
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 59 images processed.  Total time: 00:04:32
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 17 images processed.  Total time: 00:01:11
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 53 images processed.  Total time: 00:04:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 14 images processed.  Total time: 00:00:34
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 15 images processed.  Total time: 00:00:39
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 18 images processed.  Total time: 00:00:46
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 10 images processed.  Total time: 00:00:35
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 9 images processed.  Total time: 00:00:28
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 41 images processed.  Total time: 00:01:17
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing.......................................
Generating inverse palette.................................
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing........................................
Generating inverse palette.................................
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing.......................................
Generating inverse palette.................................
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
Option -8 assumed (implied by options -b, -c, -f, -F, and -u)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Heckbert quantizing.......................................
Generating inverse palette.................................
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 44 images processed.  Total time: 00:04:50
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0089u.tif
Writing JPEG file 0089u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0090u.tif
Writing JPEG file 0090u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0091u.tif
Writing JPEG file 0091u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0092u.tif
Writing JPEG file 0092u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0093u.tif
Writing JPEG file 0093u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0094u.tif
Writing JPEG file 0094u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0095u.tif
Writing JPEG file 0095u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0096u.tif
Writing JPEG file 0096u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0097u.tif
Writing JPEG file 0097u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0098u.tif
Writing JPEG file 0098u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0099u.tif
Writing JPEG file 0099u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0100u.tif
Writing JPEG file 0100u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0101u.tif
Writing JPEG file 0101u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0102u.tif
Writing JPEG file 0102u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0103u.tif
Writing JPEG file 0103u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0104u.tif
Writing JPEG file 0104u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0105u.tif
Writing JPEG file 0105u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0106u.tif
Writing JPEG file 0106u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0107u.tif
Writing JPEG file 0107u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 107 images processed.  Total time: 00:02:32
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 68 images processed.  Total time: 00:01:40
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 53 images processed.  Total time: 00:01:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0059u.tif
Writing JPEG file 0059u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0060u.tif
Writing JPEG file 0060u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0061u.tif
Writing JPEG file 0061u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0062u.tif
Writing JPEG file 0062u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0063u.tif
Writing JPEG file 0063u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0064u.tif
Writing JPEG file 0064u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0065u.tif
Writing JPEG file 0065u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0066u.tif
Writing JPEG file 0066u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0067u.tif
Writing JPEG file 0067u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0068u.tif
Writing JPEG file 0068u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0069u.tif
Writing JPEG file 0069u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0070u.tif
Writing JPEG file 0070u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0071u.tif
Writing JPEG file 0071u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0072u.tif
Writing JPEG file 0072u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0073u.tif
Writing JPEG file 0073u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0074u.tif
Writing JPEG file 0074u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0075u.tif
Writing JPEG file 0075u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0076u.tif
Writing JPEG file 0076u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0077u.tif
Writing JPEG file 0077u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0078u.tif
Writing JPEG file 0078u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0079u.tif
Writing JPEG file 0079u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0080u.tif
Writing JPEG file 0080u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0081u.tif
Writing JPEG file 0081u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0082u.tif
Writing JPEG file 0082u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0083u.tif
Writing JPEG file 0083u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0084u.tif
Writing JPEG file 0084u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0085u.tif
Writing JPEG file 0085u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0086u.tif
Writing JPEG file 0086u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0087u.tif
Writing JPEG file 0087u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0088u.tif
Writing JPEG file 0088u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 88 images processed.  Total time: 00:02:04
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 48 images processed.  Total time: 00:01:07
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 45 images processed.  Total time: 00:01:03
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 54 images processed.  Total time: 00:01:15
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 40 images processed.  Total time: 00:01:00
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0052u.tif
Writing JPEG file 0052u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0053u.tif
Writing JPEG file 0053u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0054u.tif
Writing JPEG file 0054u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0055u.tif
Writing JPEG file 0055u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0056u.tif
Writing JPEG file 0056u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0057u.tif
Writing JPEG file 0057u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0058u.tif
Writing JPEG file 0058u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 58 images processed.  Total time: 00:01:31
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 29 images processed.  Total time: 00:00:45
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0048u.tif
Writing JPEG file 0048u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0049u.tif
Writing JPEG file 0049u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0050u.tif
Writing JPEG file 0050u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0051u.tif
Writing JPEG file 0051u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 51 images processed.  Total time: 00:01:18
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 43 images processed.  Total time: 00:01:07
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0019u.tif
Writing JPEG file 0019u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0020u.tif
Writing JPEG file 0020u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0021u.tif
Writing JPEG file 0021u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0022u.tif
Writing JPEG file 0022u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0023u.tif
Writing JPEG file 0023u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0024u.tif
Writing JPEG file 0024u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0025u.tif
Writing JPEG file 0025u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0026u.tif
Writing JPEG file 0026u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0027u.tif
Writing JPEG file 0027u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0028u.tif
Writing JPEG file 0028u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0029u.tif
Writing JPEG file 0029u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0030u.tif
Writing JPEG file 0030u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0031u.tif
Writing JPEG file 0031u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0032u.tif
Writing JPEG file 0032u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0033u.tif
Writing JPEG file 0033u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0034u.tif
Writing JPEG file 0034u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0035u.tif
Writing JPEG file 0035u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0036u.tif
Writing JPEG file 0036u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0037u.tif
Writing JPEG file 0037u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0038u.tif
Writing JPEG file 0038u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0039u.tif
Writing JPEG file 0039u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0040u.tif
Writing JPEG file 0040u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0041u.tif
Writing JPEG file 0041u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0042u.tif
Writing JPEG file 0042u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0043u.tif
Writing JPEG file 0043u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0044u.tif
Writing JPEG file 0044u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0045u.tif
Writing JPEG file 0045u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0046u.tif
Writing JPEG file 0046u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0047u.tif
Writing JPEG file 0047u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 47 images processed.  Total time: 00:01:15
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0009u.tif
Writing JPEG file 0009u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0010u.tif
Writing JPEG file 0010u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0011u.tif
Writing JPEG file 0011u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0012u.tif
Writing JPEG file 0012u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0013u.tif
Writing JPEG file 0013u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0014u.tif
Writing JPEG file 0014u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0015u.tif
Writing JPEG file 0015u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0016u.tif
Writing JPEG file 0016u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0017u.tif
Writing JPEG file 0017u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0018u.tif
Writing JPEG file 0018u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Image Alchemy finished, 18 images processed.  Total time: 00:00:27
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0002u.tif
Writing JPEG file 0002u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0003u.tif
Writing JPEG file 0003u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Reading TIFF file 0004u.tif
Writing JPEG file 0004u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0005u.tif
Writing JPEG file 0005u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0006u.tif
Writing JPEG file 0006u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0007u.tif
Writing JPEG file 0007u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................

Reading TIFF file 0008u.tif
Writing JPEG file 0008u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................

Image Alchemy finished, 8 images processed.  Total time: 00:00:24
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image.......................................
Image Alchemy PS (v1.11) - Copyright (c) 1990-98, Handmade Software, Inc.
Reading TIFF file 0001u.tif
Writing JPEG file 0001u.jpg (quality=30) (Huffman coder)
The image you are converting to a JPEG file contains less than 64 colours.
JPEG compression only works well for continuous tone images (like those
produced by digitizers and colour scanners) and not vector or drawn images
(like those produced by CAD or drawing software).  Therefore the compression
ratio and image quality are likely to be poor.
Saving image........................................