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Favorite Images From Mars Rover Curiosity

  • Rover Takes Self Portrait
  • High-Resolution Self-Portrait by Curiosity Rover Arm Camera
  • Mars Science Laboratory Guided Entry at Mars, Artist's Concept
  • Mars Science Laboratory Parachute, Artist's Concept
  • Mars Rover Curiosity in Artist's Concept, Wide
  • Mars Rover Curiosity in Artist's Concept, Tall
  • Mars Rover Curiosity in Artist's Concept, Close-up
  • Bone up on Mars Rock Shapes
  • Curiosity and Rover Tracks at 'the Kimberley,' April 2014
  • Differential Erosion at Work on Martian Sandstones
  • Martian Landscape With Rock Rows and Mount Sharp
  • Panoramic View From West of 'Dingo Gap'
  • Curiosity's Color View of Martian Dune After Crossing It
  • Bright 'Evening Star' Seen from Mars is Earth (Annotated)
  • Martian Valley May Be Curiosity's Route (White-Balanced)
  • Martian Rock 'Harrison' in Color, Showing Crystals
  • Curiosity Mars Rover Approaches 'Dingo Gap,' Mastcam View
  • View of Yellowknife Bay Formation, with Drilling Sites (Unannotated)
  • Erosion by Scarp Retreat in Gale Crater (Unannotated)
  • Curiosity Sol 343 Vista With 'Twin Cairns' on Route to Mount Sharp
  • View From Mars Orbiter Showing Curiosity Rover at 'Shaler'
  • View From Curiosity's Arm-Mounted Camera After a Long Drive
  • Billion-Pixel View From Curiosity at Rocknest, White-Balanced
  • Drilled Hole and ChemCam Marks at 'Cumberland'
  • Remnants of Ancient Streambed on Mars (White-Balanced View)
  • Mars View from 'John Klein' to Mount Sharp, Right Eye
  • Mount Sharp Panorama in White-Balanced Colors
  • First Curiosity Drilling Sample in the Scoop
  • Curiosity's Drill in Place for Load Testing Before Drilling
  • Veins in 'Sheepbed' Outcrop (Unannotated)
  • Spherules in 'Yellowknife Bay' (Unannotated)
  • 'Shaler' Unit's Evidence of Stream Flow (Unannotated)
  • Wide View of 'Shaler' Outcrop, Sol 120
  • 'Snake River' Rock Feature Viewed by Curiosity Mars Rover
  • Panoramic View From 'Rocknest' Position of Curiosity Mars Rover
  • Curiosity's First Three Bites Into Martian Ground
  • Curiosity's Location During First Scooping
  • Target: Jake Matijevic Rock
  • Wheel Scuff Mark at 'Rocknest'
  • Link to a Watery Past
  • On the Road to Glenelg (Unannotated)
  • Wheels and a Destination
  • Curiosity Leaves Its Mark
  • Getting to Know Mount Sharp (UNANNOTATED)
  • Focusing the 34-millimeter Mastcam
  • Focusing the 100-millimeter Mastcam
  • Layers at the Base of Mount Sharp
  • Landing Site Panorama, with the Heights of Mount Sharp
  • Destination Mount Sharp
  • Curiosity's Heat Shield in Detail
  • Behold Mount Sharp!
  • Destination Gale Crater in August 2012
  • Oblique View of Gale Crater, Mars, with Vertical Exaggeration
  • Mars Science Laboratory Spacecraft During Cruise, Artist's Concept
Rover Takes Self Portrait High-Resolution Self-Portrait by Curiosity Rover Arm Camera Mars Science Laboratory Guided Entry at Mars, Artist's Concept Mars Science Laboratory Parachute, Artist's Concept Mars Rover Curiosity in Artist's Concept, Wide Mars Rover Curiosity in Artist's Concept, Tall Mars Rover Curiosity in Artist's Concept, Close-up Bone up on Mars Rock Shapes Curiosity and Rover Tracks at 'the Kimberley,' April 2014 Differential Erosion at Work on Martian Sandstones Martian Landscape With Rock Rows and Mount Sharp Panoramic View From West of 'Dingo Gap' Curiosity's Color View of Martian Dune After Crossing It Bright 'Evening Star' Seen from Mars is Earth (Annotated) Martian Valley May Be Curiosity's Route (White-Balanced) Martian Rock 'Harrison' in Color, Showing Crystals Curiosity Mars Rover Approaches 'Dingo Gap,' Mastcam View View of Yellowknife Bay Formation, with Drilling Sites (Unannotated) Erosion by Scarp Retreat in Gale Crater (Unannotated) Curiosity Sol 343 Vista With 'Twin Cairns' on Route to Mount Sharp View From Mars Orbiter Showing Curiosity Rover at 'Shaler' View From Curiosity's Arm-Mounted Camera After a Long Drive Billion-Pixel View From Curiosity at Rocknest, White-Balanced Drilled Hole and ChemCam Marks at 'Cumberland' Remnants of Ancient Streambed on Mars (White-Balanced View) Mars View from 'John Klein' to Mount Sharp, Right Eye Mount Sharp Panorama in White-Balanced Colors First Curiosity Drilling Sample in the Scoop Curiosity's Drill in Place for Load Testing Before Drilling Veins in 'Sheepbed' Outcrop (Unannotated) Spherules in 'Yellowknife Bay' (Unannotated) 'Shaler' Unit's Evidence of Stream Flow (Unannotated) Wide View of 'Shaler' Outcrop, Sol 120 'Snake River' Rock Feature Viewed by Curiosity Mars Rover Panoramic View From 'Rocknest' Position of Curiosity Mars Rover Curiosity's First Three Bites Into Martian Ground Curiosity's Location During First Scooping Target: Jake Matijevic Rock Wheel Scuff Mark at 'Rocknest' Link to a Watery Past On the Road to Glenelg (Unannotated) Wheels and a Destination Curiosity Leaves Its Mark Getting to Know Mount Sharp (UNANNOTATED) Focusing the 34-millimeter Mastcam Focusing the 100-millimeter Mastcam Layers at the Base of Mount Sharp Landing Site Panorama, with the Heights of Mount Sharp Destination Mount Sharp Curiosity's Heat Shield in Detail Behold Mount Sharp! Destination Gale Crater in August 2012 Oblique View of Gale Crater, Mars, with Vertical Exaggeration Mars Science Laboratory Spacecraft During Cruise, Artist's Concept

Mars Rover Curiosity: Press Release Images

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Gale Crater, where the rover Curiosity of NASA's Mars Science Laboratory mission will land in August 2012, contains a mountain rising from the crater floor.
Oblique View of Gale Crater, Mars, with Vertical Exaggeration
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This view of the head of the remote sensing mast on the Mars Science Laboratory mission's rover, Curiosity, shows seven of the 17 cameras on the rover.
Head of Mast on Mars Rover Curiosity
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This view of the head of the remote sensing mast on the Mars Science Laboratory mission's rover, Curiosity, shows seven of the 17 cameras on the rover.
Head of Mast on Mars Rover Curiosity (Labeled)
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The Sample Analysis at Mars (SAM) instrument for NASA's Mars Science Laboratory mission will study chemistry of rocks, soil and air as the mission's rover, Curiosity, investigates Gale Crater on Mars.
SAM Instrument at NASA Goddard Space Flight Center
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Color coding in this image of Gale Crater on Mars represents differences in elevation, with blue relatively low and tan relatively high.
Topography of Gale Crater
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This view of channels on Mars came from NASA's Mariner 9 orbiter. In 1971, Mariner 9 became the first spacecraft to enter orbit around Mars.
Mariner 9 View of Nirgal Vallis
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Color coding in this image of Gale Crater on Mars represents differences in elevation.
Topography of Gale Crater
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Rhythmic patterns of sedimentary layering in Danielson Crater on Mars result from periodic changes in climate related to changes in tilt of the planet.
Rhythmic Layering in Danielson Crater on Mars
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Color coding in this image of Mars represents differences in elevation, measured by the Mars Orbiter Laser Altimeter on NASA's Mars Global Surveyor.
Topography of Mars
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Sulfates are found overlying clay minerals in sediments within Columbus Crater, a depression that likely hosted a lake in the past.
Sulfates and Clays in Columbus Crater, Mars
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Thick stacks of clay minerals indicate chemical alteration of thick stacks of rock by interaction with liquid water on ancient Mars.
Chemical Alteration by Water, Mawrth Vallis
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NASA's Mars Exploration Rover Opportunity studied layers in the Burns Cliff slope of Endurance Crater in 2004.
Layers in Burns Cliff Examined by Opportunity
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On ancient Mars, water carved channels and transported sediments to form fans and deltas within lake basins.
Chemical Alteration by Water, Jezero Crater Delta
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Recent small craters discovered by the High Resolution Imaging Science Experiment camera on NASA's Mars Reconnaissance Orbiter expose buried ice in the middle latitudes of Mars.
Fresh Crater Revealing Buried Ice
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Modern-day Mars experiences cyclical changes in climate and, consequently, ice distribution. Unlike Earth, the obliquity (or tilt) of Mars changes substantially on timescales of hundreds of thousands to millions of years.
Changes in Tilt of Mars' Axis
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This artist's concept depicts NASA's Mars Atmosphere and Volatile EvolutioN (MAVEN) spacecraft near Mars.
MAVEN at Mars, Artist's Concept
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Employees gathered one level above monitor the progress of the protective mesh container known as the "gorilla cage," holding the multi-mission radioisotope thermoelectric generator (MMRTG) for NASA's Mars Science Laboratory (MSL) mission, as it is lifted near the top of the Atlas V rocket in the Vertical Integration Facility at Space Launch Complex 41.
Installing the MMRTG Power Source
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Enclosed in the protective mesh container known as the "gorilla cage," the multi-mission radioisotope thermoelectric generator (MMRTG) for NASA's Mars Science Laboratory (MSL) mission is lifted up the side of the Vertical Integration Facility at Space Launch Complex 41.
Lifting the Multi-Mission Radioisotope Thermoelectric Generator (MMRTG)
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The Atlas V rocket set to launch NASA's Mars Science Laboratory (MSL) mission is illuminated inside the Vertical Integration Facility at Space Launch Complex 41, where employees have gathered to hoist the spacecraft's multi-mission radioisotope thermoelectric generator (MMRTG).
Curiosity's Rocket Illuminating On the Launch Pad
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This artist's concept depicts the rover Curiosity, of NASA's Mars Science Laboratory mission, as it uses its Chemistry and Camera (ChemCam) instrument to investigate the composition of a rock surface.
Curiosity at Work on Mars (Artist's Concept)
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NASA's Mars Science Laboratory spacecraft has been fully stacked for flight in this photograph from inside the Payload Hazardous Servicing Facility at NASA Kennedy Space Center, Fla., in October 2011.
Mars Science Laboratory Stacked Spacecraft
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During final stacking of NASA's Mars Science Laboratory spacecraft, the heat shield is positioned for integration with the rest of the spacecraft in this photograph from inside the Payload Hazardous Servicing Facility at NASA Kennedy Space Center, Fla.
Mars Science Laboratory Heat Shield Integration for Flight
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The cruise stage of NASA's Mars Science Laboratory spacecraft is being prepared for final stacking of the spacecraft in this photograph from inside the Payload Hazardous Servicing Facility at NASA Kennedy Space Center, Fla.
Mars Science Laboratory Cruise Stage
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The "powered descent vehicle" of NASA's Mars Science Laboratory spacecraft is being prepared for final integration into the spacecraft's back shell in this photograph from inside the Payload Hazardous Servicing Facility at NASA Kennedy Space Center, Fla. The powered descent vehicle combines the spacecraft's descent stage and the rover Curiosity.
Integrating Powered Descent Vehicle with Back Shell of Mars Spacecraft
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The Mars Science Laboratory mission's "powered descent vehicle" is the integrated combination of the spacecraft's descent stage and the rover Curiosity. It is shown inside the Payload Hazardous Servicing Facility at NASA Kennedy Space Center, Fla. in this photograph taken during final assembly of the spacecraft.
Mars Science Laboratory Powered Descent Vehicle
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