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This image shows a close-up of the rock named "Crest," taken by the remote micro-imager (RMI) on Curiosity's Chemistry and Camera (ChemCam) instrument above the analysis of the elements detected by using ChemCam's laser to zap the target.
Calcium-Rich Veins in Martian Rocks (Crest)
The right Mast Camera (Mastcam) of NASA's Curiosity Mars rover provided this view of the lower stratigraphy at "Yellowknife Bay" inside Gale Crater on Mars.
'Yellowknife Bay' Veins and Concretions (Unannotated)
The right Mast Camera (Mastcam) of NASA's Curiosity Mars rover provided this view of the lower stratigraphy at "Yellowknife Bay" inside Gale Crater on Mars.
'Yellowknife Bay' Veins and Concretions
The right Mast Camera (Mastcam) of NASA's Curiosity Mars rover provided this contextual view of the vicinity of the location called "John Klein," selected as Curiosity's first drilling site.
Diversity in Vicinity of Curiosity's First Drilling Target (Unannotated)
The right Mast Camera (Mastcam) of NASA's Curiosity Mars rover provided this contextual view of the vicinity of the location called "John Klein," selected as Curiosity's first drilling site.
Diversity in Vicinity of Curiosity's First Drilling Target
This view shows the patch of veined, flat-lying rock selected as the first drilling site for NASA's Mars rover Curiosity.
'John Klein' Site Selected for Curiosity's Drill Debut (Unannotated)
This view shows the patch of veined, flat-lying rock selected as the first drilling site for NASA's Mars rover Curiosity.
'John Klein' Site Selected for Curiosity's Drill Debut
This image from the Mars Hand Lens Imager (MAHLI) on NASA's Mars rover Curiosity shows details of rock texture and color in an area where the rover's Dust Removal Tool (DRT) brushed away dust that was on the rock.
Close-up of Brushed Area on Martian Rock Target 'Ekwir_1'
This image from the Mars Hand Lens Imager (MAHLI) on NASA's Mars rover Curiosity shows the patch of rock cleaned by the first use of the rover's Dust Removal Tool (DRT).
First Use of Mars Rover Curiosity's Dust Removal Tool
The sinuous rock feature in the lower center of this mosaic of images recorded by the NASA Mars rover Curiosity is called "Snake River."
'Snake River' Rock Feature Viewed by Curiosity Mars Rover
In a shallow depression called "Yellowknife Bay," the NASA Mars rover Curiosity drove to an edge of the feature during the 130th Martian day, or sol, of the mission (Dec. 17, 2012) and used its Navigation Camera to record this view of the ledge at the margin and a view across the "bay."
At Edge of 'Yellowknife Bay,' Sol 130
This map traces where NASA's Mars rover Curiosity drove between landing at a site subsequently named "Bradbury Landing," and the position reached during the mission's 130th Martian day, or sol, (Dec. 17, 2012).
Curiosity Traverse Map, Sol 130
The NASA Mars rover Curiosity used its left Navigation Camera to record this view of the step down into a shallow depression called "Yellowknife Bay."
Looking Back at Entry Into 'Yellowknife Bay'
This stereo panoramic view combines 14 images taken by the Navigation Camera (Navcam) on the NASA Mars rover Curiosity during the mission's 120th Martian day, or sol (Dec. 7, 2012).
Sol 120 Panorama from Curiosity, near 'Shaler' (Stereo)
The NASA Mars rover Curiosity used its Navigation Camera (Navcam) during the mission's 120th Martian day, or sol (Dec. 7, 2012), to record the seven images combined into this panoramic view.
Sol 120 Panorama from Curiosity, near 'Shaler'
The NASA Mars rover Curiosity used its Mast Camera (Mastcam) during the mission's 120th Martian day, or sol (Dec. 7, 2012), to record this view of a rock outcrop informally named "Shaler."
Layered Martian Outcrop 'Shaler' in 'Glenelg' Area
This map traces where NASA's Mars rover Curiosity drove between landing at a site subsequently named "Bradbury Landing," and the position reached during the mission's 123rd Martian day, or sol, (Dec. 10, 2012).
Curiosity Traverse Map, Sol 123
Camera and robotic-arm maneuvers for taking a self-portrait of the NASA Curiosity rover on Mars were checked first, at NASA's Jet Propulsion Laboratory in Pasadena, Calif., using the main test rover for the Curiosity.
Self-Portrait of Curiosity's 'Stunt Double'
On the 84th and 85th Martian days of the NASA Mars rover Curiosity's mission on Mars (Oct. 31 and Nov. 1, 2012), NASA's Curiosity rover used the Mars Hand Lens Imager (MAHLI) to capture dozens of high-resolution images to be combined into self-portrait images of the rover.
Curiosity Self-Portrait, Wide View
This image from the NASA Mars Reconnaissance Orbiter shows an impact scar on Mars made by pieces of the NASA Mars Science Laboratory spacecraft that the spacecraft shed just before entering the Martian atmosphere.
Impact Scars from MSL Cruise Stage and Two Balance Weights (Figure 2)
These images from the NASA Mars Reconnaissance Orbiter show several impact scars on Mars made by pieces of the NASA Mars Science Laboratory spacecraft that the spacecraft shed just before entering the Martian atmosphere.
Impact Scars from MSL Cruise Stage and Two Balance Weights (Figure 3)
These images from the NASA Mars Reconnaissance Orbiter show several impact scars on Mars made by pieces of the NASA Mars Science Laboratory spacecraft that the spacecraft shed just before entering the Martian atmosphere.
Impact Scars from MSL Cruise Stage and Two Balance Weights
This image from the NASA Mars Reconnaissance Orbiter shows an impact scar on Mars made by pieces of the NASA Mars Science Laboratory spacecraft that the spacecraft shed just before entering the Martian atmosphere.
Impact Scars from MSL Cruise Stage and Two Balance Weights (Figure 1)
The Mars Hand Lens Imager (MAHLI) on NASA's Mars rover Curiosity acquired close-up views of sands in the "Rocknest" wind drift to document the nature of the material that the rover scooped, sieved and delivered to the Chemistry and Mineralogy Experiment (CheMin) and the Sample Analysis at Mars (SAM) in October and November 2012.
Windblown Sand from the 'Rocknest' Drift (Unannotated)
This is a view of the third (left) and fourth (right) trenches made by the 1.6-inch-wide (4-centimeter-wide) scoop on NASA's Mars rover Curiosity in October 2012.
Scoop Marks in the Sand at 'Rocknest' (Unannotated)
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