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NASA's Martian quake sensor InSight lands at slight angle

News Desk

Agence France-Presse

Los Angeles, United States | Sun, December 2, 2018 | 09:01 am
NASA's Martian quake sensor InSight lands at slight angle

This handout image released by NASA/JPL-Caltech on November 26, 2018 and acquired by NASA's InSight Mars lander using its robotic arm-mounted, Instrument Deployment Camera (IDC) shows a view from NASA's InSight lander after it touched down on the surface of Mars. ( NASAJPL-Caltech/AFP/File)

NASA's unmanned Martian quake sensor, InSight, has landed at a slight angle on the Red Planet, and experts are hopeful the spacecraft will work as planned, the US space agency said Friday.

The $993 million lander arrived Monday at its target, a lava plain named Elysium Planitia, for a two-year mission aimed at better understanding how Earth's neighboring planet formed.

"The vehicle sits slightly tilted (about 4 degrees) in a shallow dust- and sand-filled impact crater known as a 'hollow,'" NASA said in a statement.

InSight was engineered to operate on a surface with an inclination up to 15 degrees.

Therefore, experts are hopeful that its two main instruments -- a quake sensor and self-hammering mole to measure heat below the surface -- will work as planned.

"We couldn't be happier," said InSight project manager Tom Hoffman of NASA's Jet Propulsion Laboratory.

Read also: Safely on Mars, InSight unfolds its arrays and snaps some pics

"There are no landing pads or runways on Mars, so coming down in an area that is basically a large sandbox without any large rocks should make instrument deployment easier and provide a great place for our mole to start burrowing."

The first pictures from the lander show just a few rocks in the vicinity, more good news since touching down right near a rocky area would have made deployment of the solar arrays and instruments tricky.

Better images are expected in the coming days once InSight sheds the dust covers on its two cameras.

"We are looking forward to higher-definition pictures to confirm this preliminary assessment," said Bruce Banerdt, principal investigator of InSight at NASA. 

"If these few images -- with resolution-reducing dust covers on -- are accurate, it bodes well for both instrument deployment and the mole penetration of our subsurface heat-flow experiment."

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