Guy Webster 818-354-6278
Jet Propulsion Laboratory, Pasadena,
Calif.
Donald Savage 202-358-1547
NASA Headquarters, Washington D.C.
News Release: 2003-158
December
2, 2003
Mars Rovers Head for Exciting
Landings in January
NASA's robotic Mars geologist,
Spirit, embodying America's enthusiasm for exploration, must run a
grueling gantlet of challenges before it can start examining the red
planet. Spirit's twin Mars Exploration Rover, Opportunity, also faces
tough martian challenges.
"The risk is real, but so is the
potential reward of using these advanced rovers to improve our
understanding of how planets work," said Dr. Ed Weiler, associate
administrator for space science at NASA Headquarters, Washington, D.C.
Spirit is the first of two
golf-cart-sized rovers headed for Mars landings in January. The rovers
will seek evidence about whether the environment in two regions might
once have been capable of supporting life. Engineers at NASA's Jet
Propulsion Laboratory, Pasadena, Calif., have navigated Spirit to
arrive during the evening of Jan. 3, 2004, in the Eastern time zone.
Spirit will land near the center of
Gusev Crater, which may have once held a lake. Three weeks later,
Opportunity will reach the Meridiani Planum, a region containing exposed
deposits of a mineral that usually
forms under watery conditions.
"We've cleared two of the big
hurdles, building both spacecraft and launching them," said JPL's Peter
Theisinger, project manager for the Mars Exploration Rover Project.
"Now we're coming up on a third, getting them safely onto the ground."
Since their launches on June 10 and
July 7 respectively, each rover has been flying tucked inside a
folded-up lander. The lander is wrapped in deflated airbags, cocooned
within a protective aeroshell and attached to a cruise stage that
provides solar panels, antennas and steering for the approximately
seven month journey.
Spirit will cast off its cruise
stage 15 minutes before hitting the top of the martian atmosphere at
5,400 meters per second (12,000 miles per hour). Atmospheric friction
during the next four minutes will heat part of the aeroshell to about
1,400 C (2,600 F) and slow the descent to about 430 meters per second
(960 mph). Less than two minutes before landing, the spacecraft will
open its parachute.
Twenty seconds later, it will
jettison the bottom half of its aeroshell, exposing the lander. The top
half of the shell, still riding the parachute, will lower the lander on
a tether. In the final six seconds, airbags will inflate, retro rockets
on the upper shell will fire, and the tether will be cut about 15
meters (49 feet) above the ground.
Several bounces and rolls could take
the airbag-cushioned lander about a kilometer (0.6 mile) from where it
initially lands. If any of the initial few bounces hits a big rock
that's too sharp, or if the spacecraft doesn't complete each task at
just the right point during the descent, the mission could be over.
More than half of all the missions launched to Mars have failed.
JPL Director Dr. Charles Elachi
said, "We have done everything we know that could be humanly done to
ensure success. We have conducted more testing and external reviews
for the Mars Exploration Rovers than
for any previous interplanetary mission."
Landing safely is the first step for
three months of Mars exploration by each rover. Before rolling off its
lander, each rover will spend a week or more unfolding itself, rising
to full height, and scanning
surroundings. Spirit and Opportunity each weigh about 17 times as much
as the Sojourner rover of the 1997 Mars Pathfinder mission. They are
big enough to roll right over obstacles nearly as tall as Sojourner.
"Think of Spirit and Opportunity as
robotic field geologists," said Dr. Steve Squyres of Cornell
University, Ithaca, N.Y., principal investigator for the rovers'
identical sets of science instruments. "They look around with a stereo,
color camera and with an infrared instrument that can classify rock
types from a distance. They go to the rocks that seem most interesting.
When they get to one, they reach out with a robotic arm that has a
handful of tools, a microscope, two instruments for identifying what
the rock is made of, and a grinder for getting to a fresh, unweathered
surface inside the rock."
JPL, a division of the California
Institute of Technology in Pasadena, manages the Mars Exploration Rover
project for NASA's Office of Space Science, Washington. For information
about the Mars Exploration Rover project on the Internet,
visit http://mars.jpl.nasa.gov/mer
For Cornell University's Web site
about the science payload,
visit http://athena.cornell.edu