Its seven powerful cameras are sending high-definition images back to researchers on Earth as they try to gather billions of years of Mars history.
Cameras can focus on small details from a great distance, allowing researchers to identify patterns of rocks that could be useful in their search for evidence of life on the Red Planet.
“Imaging cameras are a huge part of everything. We use each and every one of them for science every day. They’re absolutely mission critical,” said the co-founder of NASA’s first steady-state science mission at Jet Propulsion Laboratory. Chief Vivian Sun said. In Southern California
Whenever the rover stops, its two navigation cameras take a 360-degree view of the landscape.
There are also six risk-averse cameras, or. Hayes cams, Which helps protect the rover from dangerous situations. It also has robotic weapons that can retrieve objects.
“Navigation camera data is really useful for these images to be followed up with targeted science with high resolution devices. SuperCam and Mastcam-Z. Suraj said he was also on board.
The supercam is used to study the chemistry of the planet, allowing researchers to observe traces of ancient microbial life.
The captured images have already revealed a number of stories. Mars’ Roger Venus, principal supercomputer investigator at Los Alamos National Laboratory in New Mexico in the past, said images of large rocks showed that “there was going to be some major flooding that washed away rocks from under the river.”
Cameras have also picked up traces of volcanic rock formed by lava or magma on the floor of the crater, suggesting that not only does water flow on the planet but lava flows before, during or after the formation of the lake.
Rover’s Mastcam-Z is equipped with powerful zoom capabilities and the ability to record detailed 3D images, panoramic shots and high definition video.
Jim Bell, a professor of astronomy at Arizona State University, said, “We can explore vast areas of real estate and get some quick insights into geology and color. The Mastcam-Z team.
The rover’s ability to capture color allows NASA to make connections between the features seen from above. Orbit of Mars Restoration. And what the rover sees on the surface of the planet.
“The camera also acts as a low-resolution spectrometer, dividing light into 11 different colors, which scientists can then use to determine the composition of the minerals that reflect light,” NASA said. “
Of Wide angle topographic sensors for operations and engineering. The cameras are very close to rocks and sediments, zeroing in on different types, sizes, shapes and colors of small grains, allowing scientists to identify useful specimens.
Samples can then be extracted and possibly returned to Earth one day for analysis.
This story was provided to Newsweek. Zinger News.