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Putting Mars On The Desk
Scientists at the University of Leicester's Space Research Centre are recreating the hostile environment found on Mars in their laboratory, with a device known as the Martian Environment Simulator (MES). The machine reproduces the temperature, air pressure and unbreathable atmosphere known to exist on Mars. The MES is currently being used to test equipment on the Beagle 2 lander, part of the European Space Agency's Mars Express Spacecraft and due to arrive on Mars during Christmas 2003. The chance of Beagle 2 finding life, either current or past, on the red planet has increased recently due to the discovery of ice beneath the planet's surface. The MES will be used to test all future instruments for planetary science being developed at the Space Research Centre. Instruments that work in space need to be thoroughly tested to ensure that they will work in the extreme conditions found there and also to calibrate the readings that will be transmitted back to Earth. Researchers need to be sure that the gases in the atmosphere of another planet will not cause electrical arcing that damages the instruments. The MES creates an environment where the air is made mostly of carbon dioxide and the temperature can vary between a freezing minus 10 degrees Celsius (Martian daytime temperature) and a deadly minus 80 degrees (Martian night). The Martian air pressure at the surface is only 6mbar compared to an average pressure of 1bar on Earth. This means that the air pressure at surface level is lower than that at which the highest altitude commercial flights can travel at on Earth! The MES incorporates a special sample wheel where geological materials can be attached, making it possible to test instruments designed to analyse rocks or soil on the surface of Mars. Related Links Particle Physics and Astronomy Research Council SpaceDaily Search SpaceDaily Subscribe To SpaceDaily Express 
Mars Express Has The Science Payloads To Find Water Ice
Paris (ESA) Jun 03, 2002"The presence of such a large amount of water ice under Mars's surface is very surprising. Especially so close to the surface!" says Gerhard Schwehm, Head of the Planetary Missions Division at ESA. The team working on ESA's Mars Express, the next mission to the Red Planet, is thrilled by NASA's Mars Odyssey detection of hydrogen-rich layers under the Martian surface.
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