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NASA Rover finds meteorite on Mars surface
In a stroke of luck, the NASA rover Opportunity has discovered a basketball-size metal meteorite sitting on the surface of Mars, the mission's main scientist said Tuesday.
Opportunity came upon the meteorite last week while it was taking a look at a spacecraft shell that was jettisoned before landing after protecting the rover during its plunge through the martian atmosphere.
"I didn't see this one coming," Squyres said. "I try very hard to anticipate the things that we might find and the things we might need to know, and be prepared for things, but an iron meteorite was not something that I was expecting."
Opportunity landed Jan. 24 on the Meridiani plains, halfway around the planet from where its twin, Spirit, set down in the Gusev Crater region on Jan. 3, 2004.
Opportunity, a six-wheeled robot geologist, quickly discovered rocks showing that its area of Meridiani was once soaked in water, the major scientific finding of the twin-rover mission. After that it explored rocks in a deep crater and then went to conduct an engineering study of its jettisoned heat shield. The meteorite was sitting nearby.
"I've actually told the team that we probably shouldn't linger here long because this is obviously the place at Meridiani Planum where large metal objects fall from the sky," Squyres joked.
The meteorite immediately appeared different from anything scientists had seen at either landing site.
"And then we looked at it with our infrared spectrometer and it looked like the martian sky, which is really weird," he said. The metal surface, he explained, was reflecting sky radiation instead of emitting much of its own.
During the weekend, the rover drove to the meteorite and deployed its instrument arm to confirm its origin.
The rover used its brush to remove dust but did not try to grind into the meteorite with its rock abrasion tool because of the outcome of a test conducted by the tool's maker, Honeybee Robotics of Manhattan.
"We contacted the meteorite department at the American Museum of Natural History in New York and they were generous enough to give us a piece of nickel-iron meteorite to try grinding into, and in like an hour of grinding we wore away about 25 percent of the grinding heads," Squyres said.
"We designed our rock abrasion tool for rock. We didn't design it for nickel-iron alloys."
Scientists are not interested in the meteorite itself. Rather, they want to see if other objects spotted out on the Meridiani plains are also meteorites and what that might tell them about Mars.
"You've got sort of a steady rain of meteorites on to the martian surface. It's at a very slow rate, but they are going to accumulate over time." Squyres said.
If sand is continually blowing in and being deposited on the surface, burying things and building up terrain over time, meteorites will be covered and few will be seen, he said. But if fine surface material is being continuously stripped away by the wind, coarse things like meteorites will be left behind and their accumulation will show.
"So whether you're seeing a net accumulation or a net burial of the meteorites is going to tell you something about what the erosion or deposition rates are out on the plains," he said. |
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![In this image released Tuesday, Jan. 18, 2005, by NASA taken by the Mars rover Opportunity, a basketball-size metal meteorite can be seen in the upper right of the image while part of the rover's heatshield is seen to the upper left. [Reuters]](xin_5301021911077762766312.jpg)
![NASA's Mars Exploration Rover Spirit took this false-color image of the rock nicknamed 'Tetl' in 2004. One year after they landed on Mars and confirmed that water once flowed on the red planet, the US robot probes Spirit and Opportunity continue their relentless exploration for the origins of life, far surpassing their three-month mission expectancy. [AFP/file]](xin_5001021911111053091713.jpg)
