![]() ![]() While it uses less fuel, orbital changes take longer to accomplish. The propulsion works off the electricity created by the spacecraft's solar arrays this electricity ionizes xenon atoms that get pushed out the spacecraft's rear and thus, push the spacecraft. It's been used before in deep space missions (such as the Dawn spacecraft that visited asteroid Vesta and dwarf planet Ceres), but never at Mars. Instead of traditional rocket fuel, NASA is considering using solar electric propulsion (SEP). One possibility is to swap out the gas that is used at Mars. "The key resource is water, which could make significant contributions to sustainable exploration when used in such diverse applications as life support, surface construction, and propellants for surface operations and ascent from Mars," the Next Orbiter Science Analysis Group wrote in a report published online l ast year.īecause spaceflight is expensive, engineers are always looking for ways to make it cheaper. Knowing about the ice deposits is also useful for possible future human missions, which could live off the land in terms of using water instead of hauling it all from home. RELATED: To Find Life on Mars, Perhaps We Should Look Here One of the science objectives for the next orbiter is to better understand what sorts of shallow ground ice deposits can be found across the Red Planet, and especially how these change over long periods. While the newer MAVEN (Mars Atmosphere and Volatile Evolution Mission) arrived in 2014, it's always good to have a backup. Mars Odyssey arrived in 2001, and the Mars Reconnaissance Orbiter in 2006. ![]() That's all great, but the problem is Mars' telecommunications infrastructure is aging. NASA's Curiosity and Opportunity rovers are currently sending back amazing finds from the surface and NASA plans another Mars rover in 2020.īut the rovers' abilities to hail Earth directly are limited, meaning that most of their information has to be sent to an orbiting Mars spacecraft and then to Earth. It's no use having a spacecraft at Mars unless it can communicate with Earth, so the 2022 orbiter will make a vital technological step in helping spacecraft on the surface to relay data. RELATED: Curiosity Finds Mars May Be Covered in Organic Materials There is also a lot of science still to learn, such as how much water is on or near the surface, and whether the planet is habitable enough for humans to put a mission there in the 2030s. We have a robust network of spacecraft orbiting Mars right now, but in the future those spacecraft will eventually have issues and die. One of the main issues with spacecraft is, like all other machines, they eventually get old and break down. While many would argue Mars is well-explored, there are several reasons to send another orbiter to the Red Planet in 2022. But should it get final approval, what science will NeMO be tasked with? In July, NASA's Jet Propulsion Laboratory in Pasadena, Calif., awarded five $400,000 sub-contracts for concept studies, to five companies. While the full funding hasn't yet been approved for the new mission, the 2022 orbiter - referred to as the Next Mars Orbiter or "NeMO" - early conceptual work has been carried out. It'll be a chance to replace some aging hardware and also to get some more amazing science images and data from the Red Planet, in anticipation of more robotic missions to Mars and a possible human mission in the 2030s. NASA is planning on sending a new orbiter to Mars. ![]()
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