Curiosity rover explores Mars
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Mars rover
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Mars Rover Discovers Mars Lizard. Maybe.
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Curiosity
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Curiosity Rover Snaps 1st Photos of Mars at Night
NASA/JPL-Caltech/MSSS - 5/33
Curiosity
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Say Cheese! Mars Rover Curiosity Snaps Amazing Self-Portrait
NASA / JPL-Caltech - 7/33
Curiosity Rover Finds Organic Signal on Mars, But Not Definitive: NASA
NASA/JPL-Caltech/MSSS - 8/33
Thanksgiving on Mars: Working Holiday for Curiosity Rover
NASA/JPL-Caltech - 9/33
Mars Cave-Exploration Mission Entices Scientists
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Mars Cave-Exploration Mission Entices Scientists
NASA/JPL/University of Arizona - 11/33
Curiosity
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Curiosity
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Curiosity
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Curiosity
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Curiosity Rover Digs Up Shiny Particles on Mars
NASA/JPL-Caltech/MSSS - 16/33
Curiosity Rover Digs Up Shiny Particles on Mars
NASA/JPL-Caltech/MSSS - 17/33
Curiosity
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Mars rover
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Curiosity Rover Touches 1st Martian Rock, Makes Longest Drive Yet
NASA/JPL-Caltech - 20/33
Curiosity Rover Touches 1st Martian Rock, Makes Longest Drive Yet
NASA/JPL-Caltech/MSSS - 21/33
Mars Rover Curiosity Snaps Amazing Hi-Res Self Portraits (Photos)
NASA/JPL-Caltech/Malin Space Science Systems - 22/33
Curiosity
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Curiosity
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Curiosity
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Curiosity
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Stunning Mars Photo Shows Curiosity Rover's Tracks from Space
NASA/JPL-Caltech/Univ. of Arizona - 27/33
Stunning Mars Photo Shows Curiosity Rover's Tracks from Space
NASA/JPL-Caltech/Univ. of Arizona - 28/33
Mars Rover Curiosity Begins 1st Long Martian Drive
NASA/JPL-Caltech/Univ. of Arizona - 29/33
In this image released by NASA on Monday, Aug. 27, 2012, a photo taken by the Mast Camera (MastCam) highlights the geology of Mount Sharp, a mountain inside Gale Crater, where the rover landed. Prior to the rover's landing on Mars, observations from orbiting satellites indicated that the lower reaches of Mount Sharp, below the line of white dots, are composed of relatively flat-lying strata that bear hydrated minerals. Those orbiter observations did not reveal hydrated minerals in the higher, overlying strata. The MastCam data now reveal a strong discontinuity in the strata above and below the line of white dots, agreeing with the data from orbit. Strata overlying the line of white dots are highly inclined (dipping from left to right) relative to lower, underlying strata. The inclination of these strata above the line of white dots is not obvious from orbit. This provides independent evidence that the absence of hydrated minerals on the upper reaches of Mount Sharp may coincide with a very different formation environment than lower on the slopes. The train of white dots may represent an "unconformity," or an area where the process of sedimentation stopped. (AP Photo/NASA/JPL-Caltech/MSSS)
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How to Build Your Own LEGO Mars Rover Curiosity
NASA/JPL-Caltech - 31/33
On Mars, Curiosity Rover Ponders Panoramic View & Self-Portrait
NASA - 32/33
NASA rover
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Mars Rover Curiosity Snaps Photo of Crater's Mysterious Mountain
NASA