The Parachute That Will Help Gently Plop the Rover Down on Mars Also Broke a World Record on Earth

Handled Sept. 7, this series of images reveals the fastest-ever inflation of a parachute this size.

Credit: NASA/JPL-Caltech

In 2020, NASA will introduce a rover to Mars equipped with drills to check out for previous habitable conditions and microbial life. However to land securely, it will require to release a parachute that will slow the 2,300- pound (1,043- kg) hunk of metal’s fall.

NASA just recently performed a program called the Advanced Supersonic Parachute Inflation Research Study Experiment (ASPIRE), which introduced a lot of rockets to check the effectiveness of parachutes that might securely plop the rover onto Mars’ surface area. Throughout the tests, NASA broke the world record for fastest release of a parachute– it was entirely pumped up in four-tenths of a 2nd. [The Search for Life on Mars]

The supersonic parachute brought a load of 67,000 pounds. (37,000 kg), which is the heaviest-ever payload for a parachute, according to a declaration In reality, it’s 85 percent much heavier than the payload the Mars 2020 parachute will need to slow throughout its descent towards Mars’ surface area.

Considering that the density of Earth’s environment near the surface area is around 100 times greater than what it is near Mars, NASA carried out the parachute test at a greater elevation. At that height, Earth’s climatic density resembles what it is at the location in Mars’ environment where the parachute will release.

” Mars 2020 will be bring the heaviest payload yet to the surface area of Mars, and like all our previous Mars objectives, we just have one parachute and it needs to work,” John McNamee, task supervisor of Mars 2020 at NASA’s Jet Propulsion Lab, stated in a declaration. “The ASPIRE tests have actually displayed in impressive information how our parachute will respond when it is very first released into a supersonic circulation high above Mars.”

He included: “And let me inform you, it looks stunning.”

Initially released on Live Science