Jet Propulsion Laboratory JPL Earth JPL Solar System JPL Stars and Galaxies JPL Science and Technology MSL Home NASA Home Page Jet Propulsion Laboratory California Institute of Technology Follow this link to skip to the main content
NASA logo, Jet Propulsion Laboratory, California Institute of Technology header separator
+ NASA Homepage
+ NASA en Español
+ Marte en Español
GO!
Mars Science Laboratory Banner
Overview Science Technology The Mission People Features Events Multimedia
Mars for Kids
Mars for Students
Mars for Educators
Mars for Press
+ Mars Home
+ MSL Home
The Mission
Summary
Mission Team
Launch Vehicle
Spacecraft
Mission Timeline
bullet Summary
bullet Pre-launch Activities
bullet Launch
bullet Cruise
bullet Approach
bullet Entry, Descent,
and Landing
bullet First Drive
bullet Surface Operations
Communications With Earth
Mission Timeline: Entry, Descent, and Landing
horizontal line

The entry, descent, and landing (EDL) phase begins when the spacecraft reaches the martian atmosphere, about 125 kilometers (about 78 miles) above the surface, and ends with the rover safe and sound on the surface of Mars.

Entry, descent, and landing for the Mars Science Laboratory mission will include a combination of technologies inherited from past NASA Mars missions, as well as exciting new technologies. Instead of the familiar airbag landing of the past Mars missions, Mars Science Laboratory will use a guided entry and a sky crane touchdown system to land the hyper-capable, massive rover.

The sheer size of the Mars Science Laboratory rover (775 kilograms or over 1,700 pounds) would preclude it from taking advantage of an airbag-assisted landing. Instead, the Mars Science Laboratory will use the sky crane touchdown system, which will be capable of delivering a much larger rover onto the surface. It will place the rover on its wheels, ready to begin its mission.

The new entry, descent and landing architecture, with its use of guided entry, will allow for more precision. Where the Mars Exploration Rovers could have landed anywhere within their respective 150 by 20 kilometers (about 93 miles by 12 miles) landing ellipses, Mars Science Laboratory will land within a 20-kilometer (12-mile) ellipse! This high-precision delivery will open up more areas of Mars for exploration and potentially allow scientists to roam "virtually" where they have not been able to before. The entry, descent and landing sequence will break down into four parts:

  • Guided Entry - The spacecraft will be controlled by small rockets during descent through the martian atmosphere, toward the surface.

  • Parachute Descent - Like Viking, Pathfinder and the Mars Exploration Rovers, the Mars Science Laboratory will be slowed by a large parachute.

  • Powered Descent - Again, rockets will control the spacecraft's descent until the rover separates from its final delivery system, the sky crane.

  • Sky Crane - Like a large crane on Earth, the sky crane system will lower the rover to a "soft landing"-wheels down - on the surface of Mars.

Learn more about the Steps in the entry, descent, and landing phase.
Credits Feedback Related Links Sitemap
USA Gov
+ Freedom of Information Act
+ The President's Management Agenda
+ FY 2002 Agency Performance and
   accountability report
+ NASA Privacy Statement, Disclaimer, and
   Accessiblity Certification
National Aeronautics and Space Administration
Last Updated:
+ Comments and Questions