Curiosity Rover Confronts Mars’ Most Challenging Ascent Yet

Curiosity Rover Confronts Mars’ Most Challenging Ascent Yet

On Aug. ⁣5, NASA’s Curiosity rover will celebrate its 11th ⁢year on Mars by ⁣conducting its ​primary task: studying the surface of the‍ Red‍ Planet. Recently, ​the adventurous robot​ explored a location ⁤called “Jau,”‍ which is filled with ‍numerous ⁢impact craters. It is rare ⁣for scientists to have ​such a close-up view of multiple Martian‍ craters in one place. The largest crater is estimated to be as long as a basketball court, although most are smaller in size.

Jau serves ‍as a pit stop on the⁤ rover’s journey towards the​ foothills of Mount Sharp,‍ a mountain that stands 3 miles‌ tall (5 ⁤kilometers). Billions of years ago, this mountain was⁤ surrounded by⁤ lakes,⁤ rivers, and streams. Each ‌layer of the mountain ‍represents a different era in Mars’s ancient⁤ climate.⁣ As ⁤Curiosity⁢ ascends, scientists gain more knowledge ⁤about the changes in⁤ the landscape over time.

Over the past ‌few months,​ the ⁣path up the mountain has presented the most challenging ‌climb for Curiosity. Although there have been steeper climbs and riskier terrains, this slope ‍poses a unique set of difficulties: a ‌sharp 23-degree​ incline, slippery sand, and rocks the size ​of wheels. These challenges ⁤led to the ⁣rover struggling through six drives in May and‍ June, frustrating‌ the team of drivers back ⁢on Earth.

“If ⁢you’ve‌ ever tried running up a sand dune on a​ beach—and that’s ⁤essentially‌ what we were doing—you know it’s ⁢hard, ‌but there were boulders in ⁤there as ⁣well,” said Amy‍ Hale, a Curiosity rover driver at NASA’s Jet Propulsion Laboratory in Southern California.

Hale​ is one of the 15 “rover planners” who write hundreds of lines of code⁤ each day to command Curiosity’s ⁣mobility system and robotic arm. They ⁣do not operate the rover in real time; ‍instead, instructions are sent to ⁢Mars the night before, and data is received back on Earth‌ only after the rover has completed ‍its tasks. These engineers‍ collaborate with scientists‍ to determine⁢ the rover’s⁢ direction,⁤ capture images, and select targets for study using ⁢the‌ instruments on its 7-foot (2-meter) robotic ⁣arm.

2023-08-03 20:00:04
Post from phys.org rnrn

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