NASA has detailed one of its new Rover’s most unusual instruments, explaining how will will will map beneath the surface of the red planet and what it is looking for. Launched as early as June, perseverance will land on Mars on February 18, 2021. It is actually a six wheeled mobile investigation laboratory. < / P > < p > like curiosity, many of the instruments will be designed to see Mars from the rover level. For example, the supercam is a set of instruments designed to identify and analyze the chemical composition of rocks and weathered rocks from a distance, while the mastcam-z is a stereo camera that gives the rover a unique & quot; Head & quot; component. < p > < p > in addition, it is equipped with a radar imager rimfax for Mars subsurface experiments, and pays more attention to the ground on which perseverance will travel. Or, more specifically, something beneath the surface of Mars. NASA equipped the rover with ground penetrating radar for the first time. < / P > < p > it uses the antenna at the bottom of the rear end of the will, highlighted in blue above, to emit electromagnetic waves, which are then reflected back by different materials on the ground. NASA said the radar surveys will be carried out every 10-20 cm (4-8 inches) of rover travel, and will be able to get a detailed understanding of at least 30 feet underground. “By doing so, the instrument will reveal hidden geological layers and help find clues to past environments on Mars, especially those that may have provided the necessary conditions to support life,” the agency explained < / P > < p > although the results will be two-dimensional, it is expected that the data can be layered and the 3D model of Mars underground can be given together with the camera image. The Jezero crater, which is both the landing site and the exploration area of will, is believed to have formed billions of years ago when an object collided with Mars. The 28 mile diameter crater produced rock material from deep in the planet’s crust, an area believed to have data on a lake and a fan-shaped River 3.5 billion years ago. < / P > < p > that lake may have played an important role in supporting microbial life on Mars, and NASA hopes rimfax will help find its modern remains. Along with the will’s other instruments, ground penetrating radar will be used to identify potential chemical, mineral and textural clues to possible sites. The rover will then collect core samples, pack them for future Mars missions and return to earth. < / P > < p > rimmax may be the first time it has been used on Mars, but the technology has already been used on earth. In fact, it’s the same technology used to locate underground utilities, find signs of buried caves, and study the components of glaciers. The instrument, developed and manufactured by FFI, was tested on glaciers by the team and named after the Nordic night horse HR í mfaxi. After 12 years, “world class Super project” Shantou Bay Tunnel ushers in a historic breakthrough today