February 5, 2023

NASA’s diligent rover has successfully completed its first Mars course – “an extraordinary achievement!”

Perforation hole from the second sample-collection effort of diligence, in a combination of two images taken on September 1, 2021, one of Perseverance Rover’s navigation cameras. Credit: NASA / JBL-Caltech

Diligence will receive additional images of the sample tube before completing its first science-selected collecting process. Tuesday Sample.

Data retrieved from September 1st NASAThe rover of perseverance indicates that the team has reached its goal of successfully breaking a Mars rock. The initial pictures after the historical event are attached below. However, the extra pictures taken after the hand-finished model acquisition are endless due to poor sunlight conditions. Another round of pictures with better lighting will be taken before the sample processing continues.

Obtaining additional images before sealing and storing the Mars Rock model is an additional step that the team wanted to add based on the experience of the Rover model effort on August 5th. Images in the tube, optimal lighting conditions will ensure its presence.

Diligence second sample pipe contents

This September 1, 2021 image of NASA’s diligent rover shows a sample tube with its core-rock contents. Credit: NASA / JPL-Caltech / ASU / MSSS

The diligence model and caching system extract samples slightly thicker than a pencil using a rotary-percussive drill and a 7-foot (2 m long) robotic arm at the end of the robotic arm. There is a sample tube inside the bit when goring. After finishing yesterday’s coding, diligence maneuvered the core, bit and open end of the sample tube to be shot by the rover. Mastcam-Z The target of the instrument sample collection effort was a briefcase-sized rock belonging to a ridgeline containing half a mile (900 m) of rocks and boulders.

The initial set of Mastcom-Z images showed the end of a core rock inside the sample tube. After taking these pictures, the rover began a process called “Fergus to Inject”, which vibrates the drill bit and the hose separately for one second, five. The movement is designed to clear the lip of the sample tube of any residual material. This action will cause a sample to slide further down the tube. After the rover completed the Ferguson-to-Injest process, it took a second set of Mastcom-Z images. In these images, the illumination is poor, and the interior of the sample tube is not visible.

Diligence Second Model Rover Drill

Taken by Mastcom-Z on September 1, 2021 after diligent model-curing operations, this image shows a rover drilling without a transparent rock model in the sample tube. Credit: NASA / JPL-Caltech / ASU / MSSS

Jennifer Trosper, project manager at NASA’s Jet Propulsion Laboratory in Southern California, said: “The project got its first court rock under its belt. Let’s work through the hiccups and be encouraged that there is a model in this tube.

Commands attached to the rover earlier today will receive images of the core and tube, tomorrow, September 3, when the sun is at the most favorable angle on Mars. Photographs are taken after sunset, which minimizes the light-source sources that can complete an image. Photos will return to Earth in the early hours of September 4th.

If the results of this additional imaging are uncertain, the diligence team has several more options to move forward, including final inspection of the sample tube (located inside the rover chassis) of the sample and the caching system. .

September 1 Coring is the second time it has used its model and caching system since landing on the Xerox Greater on February 18, 2021.

Mars 2020 Perseverance Rover

Explanation of collecting a sample of the Mars Perseverance Rover. Credit: NASA / JBL-Caltech

More about diligence

The main purpose of the mission of perseverance on Mars Astronomical biology, Including the search for signs of ancient microbial life. The rover will classify the planet’s geography and past climate, pave the way for human exploration of the red planet, and collect and cache Mars rock and regolith.

NASA’s next mission, in conjunction with the ESA, will collect these sealed samples from the surface and send them back to Mars for in-depth analysis.

The Mars 2020 diligent mission is part of NASA’s first Mars exploration approach to the moon Artemis Tasks for the Moon to help prepare for the human exploration of the Red Planet.

JBLIt is managed by NASA through Caltech in Pasadena, California, which creates and manages the operations of the diligent rover.