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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
  • 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 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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NASA's Mars rover Curiosity used its front left Hazard-Avoidance Camera for this image of the rover's arm over the drilling target "Cumberland" during the 275th Martian day, or sol, of the rover's work on Mars (May 15, 2013).
Curiosity at 'Cumberland'
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NASA's Mars Science Laboratory mission, which landed the rover Curiosity on Mars in August 2012, accepts the Robert J. Collier Trophy from the National Aeronautic Association at a ceremony in Arlington, Va., on May 9, 2013.
2013 Collier Trophy Awarded to Curiosity's Team
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The men and women behind the dramatic landing of NASA's Curiosity rover on Mars in August 2012 were honored with the 2013 Robert J. Collier Trophy from the National Aeronautics Association.
Team Behind Curiosity Receives Collier Trophy
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This patch of bedrock, called "Cumberland," has been selected as the second target for drilling by NASA's Mars rover Curiosity.
'Cumberland' Target for Drilling by Curiosity Mars Rover
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This map shows the location of "Cumberland," the second rock-drilling target for NASA's Mars rover Curiosity, in relation to the rover's first drilling target, "John Klein," within the southwestern lobe of a shallow depression called "Yellowknife Bay."
'Cumberland' Selected as Curiosity's Second Drilling Target
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The leader of the entry, descent and landing team of NASA's Mars Science Laboratory project, Adam Steltzner of JPL (left), accepts the 2013 Trophy for Current Achievement from the Smithsonian National Air and Space Museum from museum director Gen. J. R. "Jack" Dailey on April 24, 2013.
National Air and Space Museum Trophy for NASA's Mars Science Laboratory
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The entry, descent and landing team of NASA's Mars Science Laboratory project received the 2013 Trophy for Current Achievement from the Smithsonian National Air and Space Museum on April 24, 2013.
Curiosity's Entry, Descent and Landing Team at National Air and Space Museum
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This right-eye member of a stereo pair of images from the Navigation Camera (Navcam) on NASA's Curiosity Mars rover shows a full 360-degree view of the rover's surroundings at the site where it first drilled into a rock.
Mars View from 'John Klein' to Mount Sharp, Right Eye
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This left-eye member of a stereo pair of images from the Navigation Camera (Navcam) on NASA's Curiosity Mars rover shows a full 360-degree view of the rover's surroundings at the site where it first drilled into a rock.
Mars View from 'John Klein' to Mount Sharp, Left Eye
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Left and right eyes of the Navigation Camera (Navcam) in NASA's Curiosity Mars rover took the dozens of images combined into this stereo scene of the rover and its surroundings.
Mars Stereo View from 'John Klein' to Mount Sharp, Raw
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This left-eye member of a stereo pair of images from the Navigation Camera (Navcam) on NASA's Curiosity Mars rover shows a full 360-degree view of the rover's surroundings at the site where it first drilled into a rock.
Mars View from 'John Klein' to Mount Sharp, Left Eye
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This right-eye member of a stereo pair of images from the Navigation Camera (Navcam) on NASA's Curiosity Mars rover shows a full 360-degree view of the rover's surroundings at the site where it first drilled into a rock.
Mars View from 'John Klein' to Mount Sharp, Right Eye
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Left and right eyes of the Navigation Camera (Navcam) in NASA's Curiosity Mars rover took the dozens of images combined into this stereo scene of the rover and its surroundings
Mars Stereo View from 'John Klein' to Mount Sharp
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The 2013 list of the 100 most influential people named by TIME Magazine includes three men from NASA's Jet Propulsion Laboratory, Pasadena, Calif.
Three JPLers Named Among the 'Most Influential'
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Peter C. Theisinger served as the first project manager of NASA's Mars Science Laboratory project at NASA's Jet Propulsion Laboratory, Pasadena, Calif.
Pete Theisinger
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Richard Cook has twice held the position of project manager of NASA's Mars Science Laboratory project at NASA's Jet Propulsion Laboratory, Pasadena, Calif.
Richard Cook
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NASA's Curiosity Mars rover targeted the laser of the Chemistry and Camera (ChemCam) instrument with remarkable accuracy for assessing the composition of the wall of a drilled hole and tailings that resulted from the drilling.
Accurate pointing by Curiosity
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NASA's Curiosity Mars rover targeted the laser of the Chemistry and Camera (ChemCam) instrument with remarkable accuracy for assessing the composition of the wall of a drilled hole and tailings that resulted from the drilling.
Accurate pointing by Curiosity
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This diagram and the one at PIA16916 illustrate how the Dynamic Albedo of Neutrons (DAN) instrument on NASA's Curiosity Mars rover detects hydrogen in the ground beneath the rover.
Physics of How DAN on Curiosity Checks for Water, Part 2
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This diagram and the one at PIA16917 illustrate how the Dynamic Albedo of Neutrons (DAN) instrument on NASA's Curiosity Mars rover detects hydrogen in the ground beneath the rover.
Physics of How DAN on Curiosity Checks for Water, Part 1
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This graphic tracks the maximum relative humidity and the temperature at which that maximum occurred each Martian day, or sol, for about one-fourth of a Martian year, as measured by the Remote Environmental Monitoring Station (REMS) on NASA's Curiosity Mars rover.
Humidity in Gale Crater: Scant and Variable
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The Rover Environmental Monitoring Station (REMS) on NASA's Curiosity Mars rover has detected dozens of whirlwinds, or vortex events, causing brief dips in atmospheric pressure, and sometimes other measurable effects.
Whirlwind Detection by Curiosity in Gale Crater
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This pair of graphs shows about one-fourth of a Martian year's record of temperatures (in degrees Celsius) measured by the Rover Environmental Monitoring Station (REMS) on NASA's Curiosity rover.
Steady Temperatures at Mars' Gale Crater
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This graph shows about one-fourth of a Martian year's pattern atmospheric pressure at the surface of Mars, as measured by the Rover Environmental Monitoring Station on NASA's Curiosity rover.
Seasonal Pressure Curve Peaks at Gale Crater
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This diagram shows how materials analyzed by ChemCam during the first 100 Martian days of the mission (Aug. 5, 2012, to Nov. 16, 2013) differed with regard to hydrogen content (horizontal axis) and alkali (vertical axis).
Curiosity's ChemCam Analyzes Rocks, Soils and Dust
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