Jul 6 2010

From The Space Library

RELEASE: 10-076

NASA'S SHUTTLE DISCOVERY HEADS TO STATION AFTER PREDAWN LAUNCH

CAPE CANAVERAL, Fla. -- Space shuttle Discovery lit up Florida's Space Coast sky about 45 minutes before sunrise Monday with a 6:21 a.m. EDT launch from NASA's Kennedy Space Center. The launch began a 13-day flight to the International Space Station and the second of five shuttle missions planned for 2010. Discovery is scheduled to dock to the space station at 3:44 a.m. on Wednesday, April 7. The shuttle will deliver science experiments, equipment and supplies to the station. The flight will include three spacewalks to switch out a gyroscope on the station's truss, or backbone, install a spare ammonia storage tank, and retrieve a Japanese experiment from the station's exterior. Inside the shuttle's cargo bay is the multi-purpose logistics module Leonardo, a pressurized moving van that will be attached to the station temporarily on April 7 and returned to the shuttle's cargo bay Thursday, April 15. The module is filled with supplies, new crew sleeping quarters and science racks that will be transferred to the station's laboratories. This is the final compliment of laboratory facilities that will complete the station's overall research capabilities. "The crew of STS-131 is really honored to represent the thousands of dedicated people that make up the entire NASA, JAXA and contractor workforces, Commander Alan Poindexter said shortly before liftoff. Poindexter's fellow crew members are Pilot Jim Dutton and Mission Specialists Rick Mastracchio, Dottie Metcalf-Lindenburger, Stephanie Wilson, Clay Anderson and Japan Aerospace Exploration Agency astronaut Naoko Yamazaki. Dutton, Lindenburger and Yamazaki are making their first spaceflights. These three astronauts are the last rookies that will fly aboard the shuttle before its planned retirement. Lindenburger will be the last of three teachers selected as mission specialists in the 2004 Educator-Astronaut class to fly on the shuttle. The educational activities on the STS-131 mission will focus on robotics and promoting careers in science, technology, engineering and math. For NASA's teacher and student resources and activities related to robotics, visit: http://www.nasa.gov/education/robotics Discovery's first landing opportunity at Kennedy is scheduled for 8:30 a.m. on Sunday, April 18. The STS-131 mission will be Discovery's 38th flight and the 33rd shuttle mission dedicated to station assembly and maintenance. NASA's Web coverage of STS-131 includes mission information, a press kit, interactive features, news conference images, graphics and videos. Mission coverage, including the latest NASA TV schedule, is available on the main space shuttle Web site at: http://www.nasa.gov/shuttle NASA is providing continuous television and Internet coverage of the mission. NASA Television features live mission events, daily status news conferences and 24-hour commentary. For NASA TV streaming video, downlink and schedule information, visit: http://www.nasa.gov/ntv Daily news conferences with STS-131 mission managers will take place at NASA's Johnson Space Center in Houston. Johnson will operate a telephone bridge for media briefings that occur outside of normal business hours. To use this service, reporters must possess valid media credentials issued by a NASA center or issued specifically for the STS-131 mission. Journalists planning to use the service must contact the Johnson newsroom at 281-483-5111 no later than 15 minutes prior to the start of a briefing. Newsroom personnel will verify credentials and transfer reporters to the phone bridge. Phone bridge capacity is limited, so it will be available on a first-come, first-serve basis. Anderson and Yamazaki are sending updates about their training to their Twitter accounts and plan to tweet from orbit during the mission. They can be followed at: http://www.twitter.com/Astro_Clay and http://www.twitter.com/Astro_Naoko Live updates to the NASA News Twitter feed will be added throughout the shuttle mission and landing. To access the feed, go to the NASA.gov homepage or visit: http://www.twitter.com/nasa

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RELEASE: 10-181

NASA AND ESA'S FIRST JOINT MISSION TO MARS SELECTS INSTRUMENTS

WASHINGTON -- NASA and the European Space Agency (ESA) have embarked on a joint program to explore Mars in the coming decades and selected the five science instruments for the first mission. The ExoMars Trace Gas Orbiter, scheduled to launch in 2016, is the first of a series of planned joint robotic missions to the Red Planet. It will study the chemical makeup of the Martian atmosphere with a 1000-fold increase in sensitivity over previous Mars orbiters. The mission will focus on trace gases, including methane, which could be potentially geochemical or biological in origin and be indicators for the existence of life on Mars. The mission also will serve as an additional communications relay for Mars surface missions beginning in 2018. "Independently, NASA and ESA have made amazing discoveries up to this point, said Ed Weiler, associate administrator of NASA's Science Mission Directorate in Washington. Working together, we'll reduce duplication of effort, expand our capabilities and see results neither ever could have achieved alone. NASA and ESA invited scientists worldwide to propose the spacecraft's instruments. The five selected were from 19 proposals submitted in April. Both agencies evaluated the submissions and chose those with the best science value and lowest risk. The selection of the instruments begins the first phase of the new NASA-ESA alliance for future ventures to Mars. The instruments and the principal investigators are: -- Mars Atmosphere Trace Molecule Occultation Spectrometer -- A spectrometer designed to detect very low concentrations of the molecular components of the Martian atmosphere: Paul Wennberg, California Institute of Technology, Pasadena Calif. -- High Resolution Solar Occultation and Nadir Spectrometer -- A spectrometer designed to detect traces of the components of the Martian atmosphere and to map where they are on the surface: Ann C. Vandaele, Belgian Institute for Space Aeronomy, Brussels, Belgium. -- ExoMars Climate Sounder -- An infrared radiometer that provides daily global data on dust, water vapor and other materials to provide the context for data analysis from the spectrometers: John Schofield, NASA's Jet Propulsion Laboratory (JPL), Pasadena, Calif. -- High Resolution Stereo Color Imager -- A camera that provides four-color stereo imaging at a resolution of two million pixels over an 8.5 km swath: Alfred McEwen, University of Arizona. -- Mars Atmospheric Global Imaging Experiment -- A wide-angle, multi-spectral camera to provide global images of Mars in support of the other instruments: Bruce Cantor, Malin Space Science Systems, San Diego, Calif. The science teams on all the instruments have broad international participation from Europe and the United States, with important hardware contributions from Canada and Switzerland. "To fully explore Mars, we want to marshal all the talents we can on Earth, said David Southwood, ESA director for Science and Robotic Exploration. Now NASA and ESA are combining forces for the joint ExoMars Trace Gas Orbiter mission. Mapping methane allows us to investigate further that most important of questions: Is Mars a living planet, and if not, can or will it become so in the future? NASA and ESA share a common interest in conducting robotic missions to the Red Planet for scientific purposes and to prepare for possible human visits. After a series of extensive discussions, the science heads of both agencies agreed on a plan of cooperation during a June 2009 meeting in Plymouth, England, later confirmed by ESA Director General Jean-Jacques Dordain and NASA Administrator Charles Bolden in a statement of intent that was signed in November. The plan consists of two Mars cooperative missions in 2016 and 2018, and a later joint sample return mission. The 2016 mission features the European-built ExoMars Trace Gas Orbiter, a European-built small lander demonstrator, a primarily-U.S. international science payload, and NASA-provided launch vehicle and communications components. ESA member states will provide additional instrument support. The 2018 mission consists of a European rover with a drilling capability, a NASA rover capable of caching selected samples for potential future return to Earth, a NASA landing system, and a NASA launch vehicle. These activities are designed to serve as the foundation of a cooperative program to increase science returns and move the agencies toward a joint Mars sample return mission in the 2020s. NASA's Mars Exploration Program seeks to characterize and understand Mars as a dynamic system, including its present and past environment, climate cycles, geology and potential for life. JPL manages the program and development of the NASA-supplied instruments for the 2016 orbiter for NASA's Science Mission Directorate in Washington.

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