When the Perseverance rover sets down on Mars on Thursday, another NASA spacecraft already there will be listening for the thump-thump that will result when the newcomer arrives.
The hope is that these thumps will create enough shaking to be detected by InSight, a stationary NASA probe that arrived in 2018 to listen for marsquakes with an exquisitely sensitive seismometer. The InSight lander sits more than 2,000 miles to the east of where Perseverance is to land.
“We have a reasonable chance of seeing it,” said Benjamin Fernando, a graduate student at the University of Oxford in England and a member of the InSight science team.
Perseverance will land on Mars at 3:55 p.m. Eastern time on Thursday. NASA Television will provide coverage of the event beginning at 2:15 p.m.
Perseverance
The NASA mission includes Perseverance, a 2,200-pound rover, and Ingenuity, an experimental Mars helicopter.
Ingenuity Helicopter
The four-pound aircraft will communicate wirelessly with the Perseverance rover.
Solar Panel
Blades
Four carbon-fiber blades will spin at about 2,400 r.p.m.
Power
The plutonium-based power supply will charge the rover’s batteries.
MAST
Instruments will take videos, panoramas and photographs. A laser will study the chemistry of Martian rocks.
PiXl
Will identify chemical elements to seek signs of past life on Mars.
Antenna
Will transmit data directly to Earth.
Robotic arm
A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera.
Perseverance Rover
The 2,200 pound rover will explore Jezero Crater. It has aluminum wheels and a suspension system to drive over obstacles.
Ingenuity Helicopter
The aircraft will communicate wirelessly with the rover.
Solar Panel
Blades
Power
The plutonium-based power supply will charge the rover’s batteries.
MAST
Instruments will take videos, panoramas and photographs. A laser will study the chemistry of Martian rocks.
PiXl
Will identify chemical elements to seek signs of past life on Mars.
Antenna
Robotic arm
A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera.
Perseverance Rover
The 2,200 pound rover will explore Jezero Crater. It has aluminum wheels and a suspension system to drive over obstacles.
Solar panel
Ingenuity Helicopter
Blades
Power
Mast
PIXL
Antenna
Suspension
Perseverance rover
Robotic arm
A turret with many instruments is attached to a 7-foot robotic arm. A drill will extract samples from Martian rocks. The Sherloc device will identify molecules and minerals to detect potential biosignatures, with help from the Watson camera. PiXl will identify chemical elements to seek signs of past life on Mars.
By Eleanor Lutz | Source: NASA
Unless something goes catastrophically wrong, the seismic signals that InSight might hear will not emanate from the rover itself. Perseverance is to be lowered to the surface from a hovering crane, bumping to the ground gently at slower than 2 miles per hour.
Rather, scientists will be sifting through InSight’s seismic data for signs of the impacts of two 170-pound blocks of tungsten metal that helped keep Perseverance in a stable, balanced spin during its 300-million-mile trip from Earth. At an altitude of 900 miles above Mars, they will be jettisoned as junk, and without parachutes or retrorockets to slow them down, they will then slam into the surface at some 9,000 m.p.h.
“This enormous speed means that they’ll make quite a substantial crater,” Mr. Fernando said. In 2012, similar tungsten blocks from the Curiosity rover, which is almost the same design as Perseverance, left scars visible from orbit.
Coming in at a shallow 10-degree angle, the blocks’ impact will be to the east, which should create a splash of seismic energy heading toward InSight that would increase the chances of detecting the vibrations.
If the impact waves are detected, this will not just be a feat of technical skill. The data could help illuminate the structure of the crust of Mars.
The main purpose of the seismometer on InSight is to record marsquakes, and the spacecraft has so far recorded more than 400 such tremors. Scientists also expected that InSight would detect shaking caused by space rocks occasionally crashing into Mars.
But so far, the number of recorded meteor impacts is zero. Or at least there are no wiggles that the scientists could confidently conclude were generated by such collisions. The lack of obvious signals suggests the crust of Mars may be more similar to that of Earth’s moon than to Earth’s.
Seismic waves travel farther through solid rock than a pile of loose material like sand. On Earth, the constant churning of plate tectonics generates new solid rocks at the surface. On the moon, there are no longer eruptions of lava, and over billions of years, the bombardment of meteors has broken up the ancient lunar crust into tiny bits. The result is a loose top layer, which explains why the astronauts left so many boot prints during their visits.
“Mars is probably somewhere in between the moon and the Earth,” Mr. Fernando said.
With Perseverance, however, the exact time and location of the landing will be known, and thus InSight scientists will know where to look in the seismic data and pull out a minuscule signal that would normally be overlooked.
This is similar to how scientists decades ago were able to calibrate the seismometers left on the moon by NASA’s Apollo astronauts when pieces of rockets and lunar landers crashed into the moon.
With that knowledge, they could then sift through earlier data and look for similar patterns that could be meteor impacts.
Mr. Fernando and the other InSight scientists also considered other signals that the seismometer might pick up. Perhaps waves of air pressure from the sonic boom of the arriving Perseverance would be enough. Or the sonic boom would shake the ground, generating a wave that would travel to InSight.
But their calculations showed that those rumblings would be too small to be detectable.
They also considered looking out for larger pieces of the spacecraft like the heat shield that will also hit the ground. But those will be jettisoned at lower altitudes and not travel as fast, generating small seismic waves.
Weather could pose another complication. If the winds on Mars are too strong on Thursday, they could buffet InSight’s seismometer, creating noise that could also obscure the signal from Perseverance’s arrival.
What lies below the surface of Mars remains in large part a mystery. Indeed, the planet’s innards thwarted the other main objective of InSight, to deploy a heat probe, nicknamed the mole, that would hammer itself about 16 feet into the Martian soil. But the probe kept bouncing back up.
The sand around the mole exhibited an unexpected property of clumping, and that prevented sufficient friction for the device to propel itself more than 14 inches below the surface.
In January, NASA announced it was giving up on the mole. Nonetheless, the Insight mission was extended until December 2022, with the aim of gathering more seismic data.
Now InSight will have to survive the Martian winter. Its solar panels, shrouded with dust, are now generating only 27 percent as much power as they used to when they were new and clean. None of the hundreds of dust devils — essentially tiny tornado whirlwinds — in the neighborhood have come close enough to blow away the dust. So the mission’s managers are figuring out how to operate the spacecraft with less energy, including by switching off some science instruments. That should be enough to keep it from freezing to death, which was the fate of NASA’s Opportunity rover in 2018 after being enveloped in a planet-wide dust storm.
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