<p class="title">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.</p>.<p class="bodytext">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.</p>.<p class="bodytext">"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.</p>.<p class="bodytext">InSight was engineered to operate on a surface with an inclination up to 15 degrees.</p>.<p class="bodytext">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.</p>.<p class="bodytext">"We couldn't be happier," said InSight project manager Tom Hoffman of NASA's Jet Propulsion Laboratory.</p>.<p class="bodytext">"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."</p>.<p class="bodytext">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.</p>.<p class="bodytext">Better images are expected in the coming days once InSight sheds the dust covers on its two cameras.</p>.<p class="bodytext">"We are looking forward to higher-definition pictures to confirm this preliminary assessment," said Bruce Banerdt, principal investigator of InSight at NASA.</p>.<p class="bodytext">"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."</p>.<p class="bodytext">ksh/wd</p>
<p class="title">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.</p>.<p class="bodytext">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.</p>.<p class="bodytext">"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.</p>.<p class="bodytext">InSight was engineered to operate on a surface with an inclination up to 15 degrees.</p>.<p class="bodytext">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.</p>.<p class="bodytext">"We couldn't be happier," said InSight project manager Tom Hoffman of NASA's Jet Propulsion Laboratory.</p>.<p class="bodytext">"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."</p>.<p class="bodytext">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.</p>.<p class="bodytext">Better images are expected in the coming days once InSight sheds the dust covers on its two cameras.</p>.<p class="bodytext">"We are looking forward to higher-definition pictures to confirm this preliminary assessment," said Bruce Banerdt, principal investigator of InSight at NASA.</p>.<p class="bodytext">"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."</p>.<p class="bodytext">ksh/wd</p>