NASA Patience Mars Rover Takes First Sample of Mars Rock

Washington: NASA is making final preparations for the Perseverance Mars rover to collect the first sample of Martian rock. It will be shipped to Earth by future planned missions. Six-wheeled geologists are looking for scientifically interesting targets in part of the Jezero Crater called the “Crater Floor Fracture Draft”.
Milestones for this important mission will begin within the next two weeks. Perseverance landed on Jezero Crater on February 18, and NASA began the science phase of the Rover mission on June 1, 1.5 square kilometers of crater floor, which may contain the deepest and oldest layers of Jezero. Explored a mile (4 square kilometers) patch of exposed bedrock.
“When Neil Armstrong took his first sample from the Mare Tranquillit 52 years ago, he began the process of rewriting what humanity knew about the Moon,” said NASA Headquarters Science Deputy Director. One Thomas Zulbuchen said. “I hope the first and subsequent samples of Perseverance from the Jezero Crater will do the same for Mars. We are at the beginning of a new era of planetary science and discovery. . ”
It took Armstrong 3 minutes and 35 seconds to collect a sample of the first month. Perseverance takes about 11 days to complete the first sampling. This is because we need to receive instructions from hundreds of millions of miles away, relying on sampling, the most complex, capable, and cleanest mechanism sent into space. And caching system.
Precision equipment to work with
The sampling sequence begins with Rover placing everything needed for sampling within the reach of a 7-foot (2 meter) long robotic arm. To perform an imaging survey, NASA’s science team can then determine the exact location for taking the first sample and another target site within the same area for “proximity science.”
Vivian Sun, co-leader of the science campaign at NASA’s Jet Propulsion Laboratory in Southern California, said: “In the geological double, first use a polishing bit to scrape off the top layer of rocks and dust, expose a fresh, unweathered surface, blow it clean with a gas dust removal tool, and then approach the turret. -Mounted proximity scientific instruments SHERLOC, PIXL, and WATSON. ”
SHERLOC (a scan of the habitable environment with Raman and luminescence of organic and chemical substances), PIXL (planetary instrument of X-ray rock chemistry), and WATSON (wide-angle topographic sensor for operation and engineering) cameras are used for worn targets. Provides mineral and chemical analysis.
Both will also be joined by Perseverance’s SuperCam and Mastcam-Z equipment on the Rover’s mast. The Mastcam-Z captures high-resolution images while SuperCam fires a laser at the polished surface, spectroscopically measures the resulting plume, and collects other data.
The combination of these five instruments enables unprecedented analysis of geological materials in the field.
“After our pre-coring science is complete, we will limit the Rover task on Mars Day, or Mars Day,” Sun said. “This will allow Rover to fully charge the battery for the next day’s event.”
The sampling day begins with the sample processing arm in the Adaptive Caching Assembly removing the sample tube, heating it, and then inserting it into the coring bit. A device called a bit carousel carries the tube and bit to a rotating percussive drill in a perseverance robotic arm, then excavates a rocky, untouched geological “twin” that examined the previous sol, and the tube is approximately sized. Fill the core sample with a piece of choke.
The perseverance arm then returns the bit and tube combination to the bit carousel and back to the adaptive caching assembly. Here, the volume of the sample is measured, photographed, sealed and stored. The next time the contents of the sample tubes are seen, they will be placed in a clean room facility on Earth for analysis using scientific instruments that are too large to be sent to Mars.
“Not all the samples Perseverance collects are done in search of ancient life. I don’t think this first sample will provide any conclusive evidence in any way,” said the California Institute of Technology. Ken Farley, a Perseverance project scientist, said. “The rocks in this geological unit are not great time capsules for organic matter, but have existed since the formation of the Jezero Crater and are of great value in bridging the gap in geological understanding of the region. I believe. Know if life once existed on Mars. ”
Mission details
The main purpose of Perseverance’s mission on Mars is astrobiology, which involves exploring the signs of life of ancient microorganisms. Rover will be the first mission to characterize the planet’s geology and past climate, pave the way for human exploration of the Red Planet, and collect and cache Martian rocks and regoliths.
The Mars 2020 patience mission is the first step in NASA’s Mars sample return campaign. Subsequent NASA missions, currently under development in collaboration with the European Space Agency, will send spacecraft to Mars to collect these sealed samples from the surface and return them to Earth for further analysis.
The Mars 2020 patience mission is part of NASA’s lunar-to-Mars exploration approach. This includes a mission to the Moon in Artemis to help humans prepare for the exploration of the Red Planet.

NASA Patience Mars Rover Takes First Sample of Mars Rock

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