The oldest active probe—Mars Odyssey—has been orbiting the planet for 20 years.
The third spacecraft to reach Mars this month is NASA’s Perseverance rover, scheduled to land on February 18. It will search for signs of ancient microbial life but its mission also looks ahead, testing new technologies that may support humans visiting Mars one day.
Laboratories on wheels
NASA has an impressive track record for landing on Mars. It has operated all eight successful missions to the Martian surface.
Perseverance will be the fifth rover to arrive on Mars that’s capable of venturing across the surface of another planet.
These amazing laboratories on wheels have extended our knowledge of a faraway world. Here’s what they’ve told us so far.
The first rover—Sojourner
Twenty years after Viking 1 & 2 landed stationary probes on Mars, a third spacecraft finally reached the planet, but this one could move.
On July 4, 1997, NASA’s Pathfinder literally bounced onto the Martian surface, safely enclosed in a giant set of airbags. Once stable, the lander released the Sojourner rover.
The first rover on Mars could move at a maximum speed of 1cm a second and was about as long (63cm) as a skateboard—smaller than some of the boulders it encountered.
Sojourner explored 16 locations near the Pathfinder lander, including the volcanic rock “Yogi.” Pictures of its landing site, Ares Vallis, showed it was littered with rounded pebbles and conglomerate rocks, evidence of ancient flood plains.
The geologists—Spirit and Opportunity
A pair of upsized rovers arrived on Mars in early 2004. Spirit and Opportunity were geologists, searching for minerals within the rocks and soil, hidden clues that dry, cold Mars may once have been wet and warm.
Spirit landed in Gusev Crater, a 150km-wide crater created billions of years ago when an asteroid crashed into Mars.
Spirit discovered evidence of an ancient volcanic explosion, caused by hot lava meeting water. Small rocks had been thrown skyward but then fell back to Mars. Examination of the impact or “bomb sag” showed the rock had landed on wet soil.
The rover was descending into Endeavour Crater when a dust storm ended its mission. But it was along the crater’s edge that Opportunity made its biggest discoveries.
It found signs of ancient water flows and discovered the crater walls are made of clays that can only form where freshwater is available—more evidence that Mars could well have been a place for life.
Curiosity landed in Gale Crater on August 6, 2012, and continues to explore the region today. During the coronavirus pandemic, scientists and engineers have been commanding the rover from their homes.
In a first for space exploration, NASA’s Curiosity was lowered to the Martian surface using a “sky crane.” After a successful soft landing, the crane’s cables were cut and the spacecraft’s descent stage flew away to crash elsewhere.
Curiosity is a fully equipped chemical laboratory. It can shoot lasers at rocks and also drill into the soil to collect samples. It’s confirmed ancient Mars once had the right chemistry to support microbial life.
Curiosity also found evidence of ancient freshwater rivers and lakes. It seems that water once flowed towards a basin at Mount Sharp, a central peak that rises 5.5km from within Gale Crater.
From being on the surface of Mars, we’ve learned it was once very different to the dry, dusty planet it is today.
With flowing water, possible oceans, volcanic activity and an abundance of key ingredients necessary for life, the red planet was once much more Earth-like. What happened to make it change so dramatically?
It’s exciting to consider what the Perseverance and Taiwen-1 rovers may discover as they explore their own patch of Mars. They might even lead us to the day when humans are exploring the red planet for ourselves.
Citation: As new probes reach Mars, here’s what we know so far from trips to the red planet (2021, February 10) retrieved 10 February 2021 from https://phys.org/news/2021-02-probes-mars-red-planet.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.