Mars, as seen by NASA’s InSight lander Nasa/JPL-Caltech
The newest robotic resident of Mars defied the odds and landed safely on the surface, despite the thin atmosphere and strong gravity. On 26 November, Mars InSight faced six and a half minutes of terror, charring its heat shield, flinging its parachute out at supersonic speeds, and finally burning thrusters to set down gently at the end of its six-month journey from Earth. Unlike every other spacecraft that has visited Mars, InSight won鈥檛 explore the surface 鈥 this time it鈥檚 a mission to explore what鈥檚 inside Mars.
鈥淢ars has so many missions that have been able to explore the exterior by orbiting or by roving around on the surface,鈥 says Elizabeth Barrett, science system engineer with the mission. 鈥淚nSight is going to be that first mission that will look further into the interior.鈥
For this landing, Mars InSight is recycling the method that worked for the Phoenix polar lander in 2008. Despite an entirely new payload of instruments and destination, InSight shares the Phoenix spacecraft鈥檚 body shape and characteristics. But this time,聽we had a real-time stream of data relayed by a pair of聽cubesats 鈥 lunchbox-sized satellites聽collectively known as聽Mars Cube One聽(MarCO)聽鈥 that have accompanied InSight since its launch in May 2018.
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The MarCO satellites were designed for a special trick: a bent pipe configuration lets them immediately shoot data back to Earth. While other orbiters like Mars Odyssey stand in silent sentinel during landing, only able to report back on their following orbit, MarCO A and B can observe and report at the same time. This means that for the first time, we received real-time reports of a Mars landing limited only by the speed of light.
Not only did the cubesats ease nerves stressed thin in anticipation, they also delivered the first photograph taken by InSight from the surface of Mars. But without fuel and engines to burn to enter orbit, the聽pair聽are hurtling past Mars and聽will be out of range before confirming the final critical stage of InSight鈥檚 solar array deployment.
The first image taken by NASA鈥檚 InSight lander on the surface of Mars NASA/JPL-Caltech
Pins and needles
Like any landing, this one was full of nerves and excitement. At mission control in NASA’s Jet Propulsion Laboratory in California, the room was full of delighted relief, a celebratory feeling with a hint of shock that it all happened so quickly. With each new report of incoming data and beeps, cheers and clapping spread again. It’s perfect so far, an ideal landing to start InSight’s new adventure on Mars.
But that聽doesn鈥檛 mean the nervous anticipation is over. The wait isn鈥檛 done until the NASA control room in California gets confirmation that Mars InSight successfully deployed its solar panels. 鈥淪eeing those solar arrays open is what is going to guarantee that we can survive on the surface for an extended time,鈥 says Barrett.
Now that touchdown is complete, NASA鈥檚 Entry, Descent, and Landing team can finally celebrate after years of dreaming up nightmare scenarios and putting fixes in place to avoid them. Next, it鈥檚 time for the rest of the team to assess the spacecraft鈥檚 health, ensure all the instruments are functional and figure out where exactly Mars InSight landed in Elysium Planitia.
This was selected as a landing site in the hopes it would be a big, flat, barren plain of sand. The team wants the landing site to have as few rocks as possible, because聽Mars InSight will use its robotic arm to gently pluck instruments from the spacecraft to nestle them onto the surface.
Diving deep
Mars InSight is equipped with an array of geophysics tools: a seismometer to detect vibrations as small as the diameter of an atom, a heat flow probe that will burrow like a mole into the depths, a weather station, and a radio experiment that will unmask even the tiniest slosh within the molten Martian core.
Each is geared to explore the Mars鈥檚 structure. Some will help determine the thicknesses and materials of the crust, mantle, and core, and others will tell us how much heat the planet has now, allowing scientists to detangle its history of eruptions. By studying the inside of Mars, scientists will have a better understanding of how rocky planets form, and the differences and similarities in how Earth and Mars first formed.
This isn鈥檛 the first seismometer to go to Mars. Both the Viking missions in 1975 carried seismometers, although only one of them was functional after landing. But the Viking seismometer was mounted on the spacecraft鈥檚 deck.
鈥淯nfortunately, the deck of the spacecraft is cushioned by springs that are dampening the landing, and it鈥檚 rocked by the wind as it blows past,鈥 explains Barrett. 鈥淭he seismometer was very good at measuring the wind rather than any actual seismicity of Mars!鈥 She explained that one of the scientists saw his duty to InSight as ensuring they put the seismometer another three feet further down on the ground.
Today was a major celebration for Mars InSight, but Barrett says it鈥檚 hopefully just the first of many to come. She鈥檚 looking forward to the first pictures beamed back of Elysium Planitia. But most of all, she鈥檚 excited for those big聽milestones like hammering the heat flow probe into the ground, or recording the first marsquake on the seismometer.
Read more: NASA has chosen the landing site for its life-hunting 2020 Mars rover
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