An old NASA spacecraft in orbit around Mars is a step closer to recovering from the malfunction of a small but vital part that keeps it pointed at the Red Planet, NASA officials say.
NASA engineers are testing a spare reaction wheel aboard the 11-year-old Mars Odyssey spacecraft in the hope of restoring the aging probe to active duty after more than a week of down time. The move comes after the spacecraft slipped into a protective "safe mode" when another reaction wheel seized up last week.
The Mars Odyssey spacecraft uses three spinning reaction wheels to control its orientation in space. But on June 8, one of those reaction wheels jammed temporarily and sent the orbiter into a safe mode to await directions from mission controllers on Earth.
As part of the repair process, mission engineers activated Mars Odyssey's spare reaction wheel on June 12, spinning it up to a mindboggling 5,000 rotations per minute in both the forward and reverse directions. It was the first time the wheel has turned since before Mars Odyssey launched in April 2001.
The backup reaction wheel is available to replace the malfunctioning one, if needed, mission managers said.
"We are taking steps to assess the replacement of the troublesome wheel with the spare that Odyssey has been carrying for exactly this purpose," said Gaylon McSmith, project manager for Mars Odyssey at NASA's Jet Propulsion Laboratory in Pasadena, Calif., in a statement. "If the assessment results are positive, this will put us on a path toward resuming full use of Odyssey."
Reaction wheels aren't the only way the Mars Odyssey spacecraft can maintain its orientation in space. The spacecraft also carries a set of thrusters for attitude control, but mission managers prefer to use its reaction wheels because they are more precise and don't require the probe to consume its supply of thruster rocket fuel.
NASA's Mars Odyssey mission is the longest mission to Mars in history, and the spacecraft continues to play a vital role in the orbital and surface study of the planet. In addition to observing Mars, the orbiter serves as a communication relay for NASA's Opportunity rover on the Martian surface and is expected to do the same for the huge Curiosity rover when it lands on Mars on Aug. 5.