Bibliographic record and links to related information available from the Library of Congress catalog.
Note: Electronic data is machine generated. May be incomplete or contain other coding.
Introduction Chapter 1. Review of Numbers and Coordinate Systems 1.1. Review of numbers, including natural, whole, integers, zero, rational, irrational, real, complex, and imaginary numbers 1.2. Absolute value 1.3. Significant digits and rounding numbers and decimals 1.4. Review of coordinate systems, including two- and three- dimensional rectangular coordinates, polar coordinates, cylindrical coordinates, and spherical coordinates 1.5. Chapter 1 summary and highlights Chapter 2. Review of Geometry 2.1. Introduction 2.2. Lines and angles 2.3. Triangles 2.4. Polygons and quadrilaterals 2.5. Conic sections, including circles, arcs and angles, ellipses, parabolas, and hyperbolas 2.6. Three-dimensional objects, including cubes, rectangular solids, cylinders, spheres, cones, and pyramids 2.7. Chapter 2 summary and highlights Chapter 3. Triangles and Trigonometric Functions 3.1. Right triangles and the trigonometric functions 3.2. Solving right triangles 3.3. Examples and applications of right triangles 3.4. Oblique triangles and the Law of Sines and Law of Cosines 3.5. Solving oblique triangles 3.6. Examples and applications of oblique triangles 3.7. Finding the area of a triangle 3.8. Chapter 3 summary and highlights Chapter 4. Trigonometric Functions in a Coordinate System and Circular Functions 4.1. Review of functions and their properties 4.2. Types of functions, including composite, inverse, linear, nonlinear, even, odd, exponential, logarithmic, identity, absolute value, squaring, cubing, square root, cube root, reciprocal, and functions with more than one variable 4.3. Coordinate systems, radians, degrees, and arc length 4.4. Angles in standard position and coterminal angles 4.5. The trigonometric functions defined in a coordinate system in standard position, quadrant signs, and quadrantal angles 4.6. Reference angles and reference triangles 4.7. Negative angles 4.8. Reciprocal functions and cofunction relationships 4.9. Circular functions and the unit circle 4.10. Linear and angular velocity 4.11. Chapter 4 summary and highlights Chapter 5. Graphs of Trigonometric and Circular Functions and their Periodic Nature 5.1. Circular motion 5.2. Graphs of sine and cosine 5.3. Transforming graphs of sine and cosine through changes in amplitude, period, and vertical and horizontal shifting 5.4. Applications ofsinusoids 5.5. Graphs of secant and cosecant 5.6. Graphs oftangent and cotangent 5.7. Chapter 5 summary and highlights Chapter 6. Inverse Trigonometric Functions 6.1. Review of general inverse functions 6.2. Inverse trigonometric functions 6.3. Inverse sine and inverse cosine 6.4. Inverse tangent 6.5. Inverse cotangent, inverse secant, and inverse cosecant 6.6. Chapter 6 summary and highlights Chapter 7. Trigonometric Identities 7.1. Summary of identities 7.2. Quotient identities and reciprocal identities 7.3. Pythagorean identities 7.4. Negative number/angle identities 7.5. Verifying trigonometric identities 7.6. Sum and difference of angles/numbers identities, also called addition and subtraction identities 7.7. Cofunction identities 7.8. Supplementary angle relations 7.9. Double-angle/number identities 7.10. Half-angle identities 7.11. Product-to-sum identities 7.12. Sum/difference-to-product identities 7.13. Squared formulas 7.14. Chapter 7 summary and highlights Chapter 8. Trigonometric Functions in Equations and Inequalities 8.1. Review of solving algebraic equations 8.2. Review of solving algebraic quadratic equations 8.3. Review of solving algebraic inequalities 8.4. Solving algebraic equations and inequalities using graphing 8.5. Introduction to solving trigonometric equations and inequalities 8.6. Solving simple trigonometric equations using standard position angles, reference triangles, and identities 8.7. Solving trigonometric equations involving powers using factoring, a unit circle, and identities 8.8. Solving trigonometric equations and inequalities using the quadratic formula, identities, unit circles, factoring, and graphing 8.9. Estimating solutions to trigonometric equations and inequalities using graphing 8.10. Chapter 8 summary and highlights Chapter 9. Trigonometric Functions and Vectors 9.1. Definitions of vectors 9.2. Representing vectors in terms of their components in a coordinate system 9.3. Representing vectors in terms of their components in a coordinate system using the unit vectors i, j, and k 9.4. Addition and subtraction of vectors 9.5. Simple vector problems 9.6. Multiplying a vector with a scalar 9.7. Dot or scalar products 9.8. Vector or cross product Chapter 10. Trigonometric Functions In Polar Coordinates and Equations, and Parametric Equations 10.1. Polar coordinates defined 10.2. Converting between rectangular and polar coordinate systems and equations 10.3. Graphing polar equations 10.4. Parametric equations 10.5. Chapter 10 summary and highlights Chapter 11. Complex Numbers and The Complex Plane 11.1. Complex numbers defined 11.2. The complex plane in rectangular form 11.3. Addition and subtraction of complex numbers in rectangular form 11.4. Complex numbers in polar form and the complex plane 11.5. Converting between rectangular and polar form 11.6. Multiplication and division of complex numbers in rectangular and polar forms 11.7. Powers and roots of complex numbers 11.8. Chapter 11 summary and highlights Chapter 12. Relationships Between Trigonometric Functions, Exponential Functions, Hyperbolic Functions and Series Expansions 12.1. Relationships between trigonometric and exponential functions 12.2. Background: summary of sequences, progressions and series, and expanding a function into a series 12.3. Hyperbolic functions 12.4. Chapter 12 summary and highlights Chapter 13. Spherical Trigonometry 13.1. Definitions and properties 13.2. Measuring spherical triangles 13.3. The Law of Sines and the Law of Cosines for spherical triangles for calculating sides and angles 13.4. Celestial sphere 13.5. Chapter 13 summary and highlights