NASA will reveal new discoveries about Mars gleaned from the Curiosity rover's first rock powder sample in a high-profile press conference on Tuesday, March 12.
The Mars rover press conference, which will be held at the agency's headquarters in Washington, will begin at 1 p.m. EDT (1700 GMT). It will be broadcast live on NASA's TV and webcast channels, a departure from recent teleconferences that have been a staple of Curiosity rover mission updates.
NASA officials said the Tuesday press conference will "discuss the Curiosity rover's analysis of the first sample of rock powder ever collected on Mars."
Curiosity drilled into a Mars rock for the first time on Feb. 8 using a percussive drill tool mounted to its robotic arm. The rover drilled a 2.5-inch (6.4 centimeters) hole into a flat Mars rock called "John Klein," named after a NASA Curiosity rover project manager who died in 2011.
The first sample drilling on Mars revealed an odd, gray interior of Martian rock that stood out in stark contrast to the ubiquitous orange-red of the Red Planet's surface. Curiosity scooped up a sample of the gray rock powder and placed it inside two onboard laboratories, called the Chemistry and Mineralogy instrument and Sample Analysis at Mars, to determine its chemical makeup. [1st Mars Drilling on Mars by Curiosity (Photos)]
NASA is expected to discuss the results from those tests in Tuesday's press conference, which will include presentations by the following scientists:
Michael Meyer, lead scientist, Mars Exploration Program, NASA Headquarters, Washington
John Grotzinger, Curiosity project scientist, California Institute of Technology, Pasadena, Calif.
David Blake, principal investigator for Curiosity's Chemistry and Mineralogy investigation, NASA's Ames Research Center, Moffett Field, Calif.
Paul Mahaffy, principal investigator for Curiosity's Sample Analysis at Mars investigation, NASA's Goddard Space Flight Center, Greenbelt, Md.
Curiosity landed inside the huge Gale Crater on Mars and is currently at a site called Yellowknife Bay, which is home to the John Klein rock. The rover is ultimately destined to a region dubbed Glenelg, which is near the base of a 3-mile-high (5 kilometers) mountain rising from the center of Gale Crater.
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