Anxiety abounds at NASA as Mars landing day arrives
A NASA spacecraft's six-month journey to Mars neared its dramatic grand finale Monday in what scientists and engineers hoped would be a soft precision landing on flat red plains.
The InSight lander aimed for an afternoon touchdown, as anxiety built among those involved in the $1 billion international effort.
InSight's perilous descent through the Martian atmosphere, after a trip of 300 million miles (482 million kilometers), had stomachs churning and nerves stretched to the max.
Although an old pro at this, NASA last attempted a landing at Mars six years ago.
The robotic geologist - designed to explore Mars' mysterious insides - must go from 12,300 mph (19,800 kph) to zero in six minutes flat as it pierces the Martian atmosphere, pops out a parachute, fires its descent engines and, hopefully, lands on three legs.
"Landing on Mars is one of the hardest single jobs that people have to do in planetary exploration," noted InSight's lead scientist, Bruce Banerdt."
"It's such a difficult thing, it's such a dangerous thing that there's always a fairly uncomfortably large chance that something could go wrong."
Earth's success rate at Mars is 40 percent, counting every attempted flyby, orbital flight and landing by the U.S., Russia and other countries dating all the way back to 1960.
But the U.S. has pulled off seven successful Mars landings in the past four decades.
With only one failed touchdown, it's an enviable record.
No other country has managed to set and operate a spacecraft on the dusty red surface.
InSight could hand NASA its eighth win.
It's shooting for Elysium Planitia, a plain near the Martian equator that the InSight team hopes is as flat as a parking lot in Kansas with few, if any, rocks.
This is no rock-collecting expedition.
Instead, the stationary 800-pound (360-kilogram) lander will use its 6-foot (1.8-meter) robotic arm to place a mechanical mole and seismometer on the ground.
The self-hammering mole will burrow 16 feet (5 meters) down to measure the planet's internal heat, while the ultra-high-tech seismometer listens for possible marsquakes.
Nothing like this has been attempted before at our smaller next-door neighbor, nearly 100 million miles (160 million kilometers) away.
No experiments have ever been moved robotically from the spacecraft to the actual Martian surface.
No lander has dug deeper than several inches, and no seismometer has ever worked on Mars.
By examining the deepest, darkest interior of Mars - still preserved from its earliest days - scientists hope to create 3D images that could reveal how our solar system's rocky planets formed 4.5 billion years ago and why they turned out so different. One of the big questions is what made Earth so hospitable to life.
Mars once had flowing rivers and lakes; the deltas and lakebeds are now dry, and the planet cold.
Venus is a furnace because of its thick, heat-trapping atmosphere.
Mercury, closest to the sun, has a surface that's positively baked.
The planetary know-how gained from InSight's two-year operation could even spill over to rocky worlds beyond our solar system, according to Banerdt.
The findings on Mars could help explain the type of conditions at these so-called exoplanets "and how they fit into the story that we're trying to figure out for how planets form," he said.
Concentrating on planetary building blocks, InSight has no life-detecting capability.
That will be left for future rovers.
NASA's Mars 2020 mission, for instance, will collect rocks for eventual return that could hold evidence of ancient life.
Photos: EPA & AP
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