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NASA’s Mars Perseverance rover acquired this image using its left Mastcam-Z camera on Thursday. Mastcam-Z is a pair of cameras located high on the mast of the rover. Photo courtesy of NASA | License photo
Perseverance documents the Martian surface. Photo courtesy of NASA | License photo
The Martian surface is documented in detail from Perseverance. Photo courtesy of NASA | License photo
Navigation cameras on board the Mars rover captured this view from the rover’s deck on Monday. This view gives an overview of PIXL (the planetary instrument for X-ray lithochemistry), one of the instruments of the folded arm of the rover. Photo courtesy of NASA / JPL-Caltech
This panorama, produced by the navigation cameras aboard Perseverance, was assembled from six individual images after they were returned to Earth. Subsequent missions, currently being considered by NASA in cooperation with the European Space Agency, would send spacecraft to Mars to collect these cached samples on the surface and return them to Earth for further analysis. Photo courtesy of NASA / JPL-Caltech
This is the first high-resolution color image returned by Hazard Cameras (Hazcams) to the underside of NASA’s Perseverance Mars rover after it landed on February 18. Photo courtesy of NASA | License photo
This high-resolution still image, from the camera aboard the descent scene, is part of video taken by multiple cameras as NASA’s Perseverance rover landed on Mars. Photo courtesy of NASA | License photo
Perseverance can be seen falling into the Martian atmosphere in the descent stage, its parachute trailing, in this camera image taken Thursday by the high-resolution imaging experiment aboard the Mars Reconnaissance Orbiter. The ancient river delta, which is the target of the Perseverance mission, can be seen entering Jezero Crater from the left. Photo courtesy of NASA | License photo
One illustration shows the rover driving in the foreground across the plain to Jezero crater, where the robotic explorer has landed safely. Image courtesy of NASA
An image showing where the Perseverance Mars rover landed is shown during a post-landing update of NASA’s Perseverance rover mission on February 18 at NASA’s Jet Propulsion Laboratory in Pasadena, in California. Photo by Bill Ingalls / NASA | License photo
Members of NASA’s Perseverance Mars rover team attend mission control as the first images arrive moments after the spacecraft has successfully landed on Mars. Photo by Bill Ingalls / NASA | License photo
The first photos taken by NASA’s Perseverance Mars rover after landing on the Martian surface. A key focus of Perseverance’s mission to Mars is astrobiology, including looking for signs of ancient microbial life. Photo courtesy of NASA | License photo
These computer simulations show the landing of Perseverance on the Martian surface. The rover will characterize the planet’s geology and past climate, paving the way for human exploration of the Red Planet and will be the first mission to collect and hide Martian rock and regolith. Image courtesy of NASA | License photo
In this illustration of its descent to Mars, the spacecraft carrying NASA’s Perseverance rover slows down by using drag generated by its movement in the Martian atmosphere. Hundreds of critical events must execute precisely in time for the rover to land safely on Mars. Entry, Descent, and Landing, or “EDL,” begins when the spacecraft reaches the top of the Martian atmosphere, traveling nearly 12,500 mph. The cruising stage separates about 10 minutes before entering the atmosphere, leaving the aeroshell, which contains the rover and the descent stage, to make the trip to the surface. Image courtesy of NASA | License photo
An illustration of Perseverance on Mars, launched from Earth in July. It is the fifth rover to successfully reach Mars and the first of three to be able to return rock samples to Earth. Image courtesy of NASA | License photo
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