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NASA's Curiosity Mars rover used the Navigation Camera (Navcam) on its mast to catch this look-back eastward at wheel tracks from driving through and past 'Dingo Gap' inside Gale Crater.
NASA's Curiosity Mars rover used the Navigation Camera (Navcam) on its mast to catch this look-back eastward at wheel tracks from driving through and past 'Dingo Gap' inside Gale Crater.

Curiosity Making Headway West of 'Dingo Gap'

NASA's Curiosity Mars rover used the Navigation Camera (Navcam) on its mast to catch this look-back eastward at wheel tracks from driving through and past 'Dingo Gap' inside Gale Crater.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Hazard Avoidance Camera (MSL)
Size: 1024 x 1024
ID#: PIA17939
Added: 2014-02-11

Views: 7314

Curiosity Making Headway West of 'Dingo Gap'

NASA's Curiosity Mars rover used the Navigation Camera (Navcam) on its mast to catch this look-back eastward at wheel tracks from driving through and past 'Dingo Gap' inside Gale Crater.

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This image from NASA's Curiosity Mars rover shows Curiosity at the 'Rocknest' site where the rover scooped up samples of windblown dust and sand.
This image from NASA's Curiosity Mars rover shows Curiosity at the 'Rocknest' site where the rover scooped up samples of windblown dust and sand.

Billion-Pixel View From Curiosity at Rock Nest, Raw Color

This image from NASA's Curiosity Mars rover shows Curiosity at the 'Rocknest' site where the rover scooped up samples of windblown dust and sand.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam, Navigation Camera (MSL)
Size: 17548 x 3022
ID#: PIA16919
Added: 2013-06-19

Views: 108437

Billion-Pixel View From Curiosity at Rock Nest, Raw Color

This image from NASA's Curiosity Mars rover shows Curiosity at the 'Rocknest' site where the rover scooped up samples of windblown dust and sand.

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This view of the twilight sky and Martian horizon taken by NASA's Curiosity Mars rover includes Earth as the brightest point of light in the night sky. Earth is a little left of center in the image, and our moon is just below Earth.
This view of the twilight sky and Martian horizon taken by NASA's Curiosity Mars rover includes Earth as the brightest point of light in the night sky. Earth is a little left of center in the image, and our moon is just below Earth.

Bright 'Evening Star' Seen from Mars is Earth

This view of the twilight sky and Martian horizon taken by NASA's Curiosity Mars rover includes Earth as the brightest point of light in the night sky. Earth is a little left of center in the image, and our moon is just below Earth.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 3200 x 2000
ID#: PIA17936
Added: 2014-02-06

Views: 240111

Bright 'Evening Star' Seen from Mars is Earth

This view of the twilight sky and Martian horizon taken by NASA's Curiosity Mars rover includes Earth as the brightest point of light in the night sky. Earth is a little left of center in the image, and our moon is just below Earth.

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This frame from an animation from NASA's Mars rover Curiosity shows the rover drilling into rock target 'Cumberland.' The drilling was performed during the 279th Martian day, or sol, of the Curiosity's work on Mars (May 19, 2013).
This frame from an animation from NASA's Mars rover Curiosity shows the rover drilling into rock target 'Cumberland.' The drilling was performed during the 279th Martian day, or sol, of the Curiosity's work on Mars (May 19, 2013).

Curiosity Mars Rover Drilling Into Its Second Rock

This frame from an animation from NASA's Mars rover Curiosity shows the rover drilling into rock target 'Cumberland.' The drilling was performed during the 279th Martian day, or sol, of the Curiosity's work on Mars (May 19, 2013).

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Hazard Avoidance Camera (MSL)
Size: 1279 x 715
ID#: PIA17068
Added: 2013-06-05

Views: 7479

Curiosity Mars Rover Drilling Into Its Second Rock

This frame from an animation from NASA's Mars rover Curiosity shows the rover drilling into rock target 'Cumberland.' The drilling was performed during the 279th Martian day, or sol, of the Curiosity's work on Mars (May 19, 2013).

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The Mast Camera (Mastcam) on NASA's Mars rover Curiosity showed researchers interesting internal color in this rock called 'Sutton_Inlier,' which was broken by the rover driving over it.
The Mast Camera (Mastcam) on NASA's Mars rover Curiosity showed researchers interesting internal color in this rock called 'Sutton_Inlier,' which was broken by the rover driving over it.

Bluish Color in Broken Rock in 'Yellowknife Bay'

The Mast Camera (Mastcam) on NASA's Mars rover Curiosity showed researchers interesting internal color in this rock called 'Sutton_Inlier,' which was broken by the rover driving over it.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 1150 x 1107
ID#: PIA16804
Added: 2013-03-18

Views: 16145

Bluish Color in Broken Rock in 'Yellowknife Bay'

The Mast Camera (Mastcam) on NASA's Mars rover Curiosity showed researchers interesting internal color in this rock called 'Sutton_Inlier,' which was broken by the rover driving over it.

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This image from the Mars Hand Lens Imager on NASA's Mars rover Curiosity shows the patch of rock cleaned by the first use of the rover's Dust Removal Tool (DRT). The tool is a motorized, wire-bristle brush on the turret at the end of the rover's arm.
This image from the Mars Hand Lens Imager on NASA's Mars rover Curiosity shows the patch of rock cleaned by the first use of the rover's Dust Removal Tool (DRT). The tool is a motorized, wire-bristle brush on the turret at the end of the rover's arm.

First Use of Mars Rover Curiosity's Dust Removal Tool

This image from the Mars Hand Lens Imager on NASA's Mars rover Curiosity shows the patch of rock cleaned by the first use of the rover's Dust Removal Tool (DRT). The tool is a motorized, wire-bristle brush on the turret at the end of the rover's arm.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mars Hand Lens Imager (MAHLI)
Size: 1602 x 1195
ID#: PIA16565
Added: 2013-01-07

Views: 21914

First Use of Mars Rover Curiosity's Dust Removal Tool

This image from the Mars Hand Lens Imager on NASA's Mars rover Curiosity shows the patch of rock cleaned by the first use of the rover's Dust Removal Tool (DRT). The tool is a motorized, wire-bristle brush on the turret at the end of the rover's arm.

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The two bodies in this portion of an evening-sky view by NASA's Mars rover Curiosity are Earth and Earth's moon. The rover's Mast Camera (Mastcam) imaged them in the twilight sky of Curiosity's 529th Martian day, or sol (Jan. 31, 2014).
The two bodies in this portion of an evening-sky view by NASA's Mars rover Curiosity are Earth and Earth's moon. The rover's Mast Camera (Mastcam) imaged them in the twilight sky of Curiosity's 529th Martian day, or sol (Jan. 31, 2014).

Curiosity Mars Rover's First Image of Earth and Earth's Moon

The two bodies in this portion of an evening-sky view by NASA's Mars rover Curiosity are Earth and Earth's moon. The rover's Mast Camera (Mastcam) imaged them in the twilight sky of Curiosity's 529th Martian day, or sol (Jan. 31, 2014).

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 78 x 168
ID#: PIA17935
Added: 2014-02-06

Views: 3859

Curiosity Mars Rover's First Image of Earth and Earth's Moon

The two bodies in this portion of an evening-sky view by NASA's Mars rover Curiosity are Earth and Earth's moon. The rover's Mast Camera (Mastcam) imaged them in the twilight sky of Curiosity's 529th Martian day, or sol (Jan. 31, 2014).

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NASA's Curiosity rover shows the first sample of powdered rock extracted by the rover's drill. The image was taken after the sample was transferred from the drill to the rover's scoop.
NASA's Curiosity rover shows the first sample of powdered rock extracted by the rover's drill. The image was taken after the sample was transferred from the drill to the rover's scoop.

First Curiosity Drilling Sample in the Scoop

NASA's Curiosity rover shows the first sample of powdered rock extracted by the rover's drill. The image was taken after the sample was transferred from the drill to the rover's scoop.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: CHIMRA, Mastcam
Size: 768 x 768
ID#: PIA16729
Added: 2013-02-20

Views: 11645

First Curiosity Drilling Sample in the Scoop

NASA's Curiosity rover shows the first sample of powdered rock extracted by the rover's drill. The image was taken after the sample was transferred from the drill to the rover's scoop.

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This view combines several frames taken by NASA's Mars rover Curiosity, looking into a valley to the west from the eastern side of a dune at the eastern end of the valley.
This view combines several frames taken by NASA's Mars rover Curiosity, looking into a valley to the west from the eastern side of a dune at the eastern end of the valley.

Martian Valley May Be Curiosity's Route

This view combines several frames taken by NASA's Mars rover Curiosity, looking into a valley to the west from the eastern side of a dune at the eastern end of the valley.

Target:
Mission: Mars Exploration Rover (MER)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 9074 x 2287
ID#: PIA17931
Added: 2014-02-03

Views: 25944

Martian Valley May Be Curiosity's Route

This view combines several frames taken by NASA's Mars rover Curiosity, looking into a valley to the west from the eastern side of a dune at the eastern end of the valley.

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The Curiosity rover used its Mars Hand Lens Imager (MAHLI) to capture a set of 55 high resolution images, which were stitched together to create a full-color self-portrait.
The Curiosity rover used its Mars Hand Lens Imager (MAHLI) to capture a set of 55 high resolution images, which were stitched together to create a full-color self-portrait.

High-Resolution Self-Portrait by Curiosity Rover Arm Camera

The Curiosity rover used its Mars Hand Lens Imager (MAHLI) to capture a set of 55 high resolution images, which were stitched together to create a full-color self-portrait.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mars Hand Lens Imager (MAHLI)
Size: 5463 x 7595
ID#: PIA16239
Added: 2012-11-01

Views: 34224

High-Resolution Self-Portrait by Curiosity Rover Arm Camera

The Curiosity rover used its Mars Hand Lens Imager (MAHLI) to capture a set of 55 high resolution images, which were stitched together to create a full-color self-portrait.

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This view from the Mastcam on NASA's Curiosity Mars rover shows dramatic buttes and layers on the lower flank of Mount Sharp.
This view from the Mastcam on NASA's Curiosity Mars rover shows dramatic buttes and layers on the lower flank of Mount Sharp.

Mount Sharp Buttes and Layers From Near 'Darwin'

This view from the Mastcam on NASA's Curiosity Mars rover shows dramatic buttes and layers on the lower flank of Mount Sharp.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 1920 x 1080
ID#: PIA19083
Added: 2014-12-11

Views: 2362

Mount Sharp Buttes and Layers From Near 'Darwin'

This view from the Mastcam on NASA's Curiosity Mars rover shows dramatic buttes and layers on the lower flank of Mount Sharp.

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Cross-bedding seen in the layers of this Martian rock is evidence of movement of water recorded by the waves or ripples of loose sediment the water passed over, such as a current in a lake. This image is from NASA's Curiosity Mars rover.
Cross-bedding seen in the layers of this Martian rock is evidence of movement of water recorded by the waves or ripples of loose sediment the water passed over, such as a current in a lake. This image is from NASA's Curiosity Mars rover.

Martian Rock's Evidence of Lake Currents

Cross-bedding seen in the layers of this Martian rock is evidence of movement of water recorded by the waves or ripples of loose sediment the water passed over, such as a current in a lake. This image is from NASA's Curiosity Mars rover.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 2350 x 1026
ID#: PIA19081
Added: 2014-12-08

Views: 3007

Martian Rock's Evidence of Lake Currents

Cross-bedding seen in the layers of this Martian rock is evidence of movement of water recorded by the waves or ripples of loose sediment the water passed over, such as a current in a lake. This image is from NASA's Curiosity Mars rover.

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This simulation depicts a lake partially filling Mars' Gale Crater, receiving runoff from snow melting on the crater's rim, showing evidence that NASA's Curiosity rover has found ancient streams, deltas and lakes.
This simulation depicts a lake partially filling Mars' Gale Crater, receiving runoff from snow melting on the crater's rim, showing evidence that NASA's Curiosity rover has found ancient streams, deltas and lakes.

Simulated View of Gale Crater Lake on Mars

This simulation depicts a lake partially filling Mars' Gale Crater, receiving runoff from snow melting on the crater's rim, showing evidence that NASA's Curiosity rover has found ancient streams, deltas and lakes.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft:
Instrument:
Size: 2560 x 1600
ID#: PIA19080
Added: 2014-12-08

Views: 2010

Simulated View of Gale Crater Lake on Mars

This simulation depicts a lake partially filling Mars' Gale Crater, receiving runoff from snow melting on the crater's rim, showing evidence that NASA's Curiosity rover has found ancient streams, deltas and lakes.

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This image depicts how a mountain inside a Mars' Gale Crater might have formed. At left, the crater fills with layers of sediment. Yellow is for deposits in alluvial fans, deltas, and drifts during both wet and dry periods.
This image depicts how a mountain inside a Mars' Gale Crater might have formed. At left, the crater fills with layers of sediment. Yellow is for deposits in alluvial fans, deltas, and drifts during both wet and dry periods.

Sedimentation and Erosion in Gale Crater, Mars

This image depicts how a mountain inside a Mars' Gale Crater might have formed. At left, the crater fills with layers of sediment. Yellow is for deposits in alluvial fans, deltas, and drifts during both wet and dry periods.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft:
Instrument:
Size: 4030 x 1275
ID#: PIA19079
Added: 2014-12-08

Views: 2440

Sedimentation and Erosion in Gale Crater, Mars

This image depicts how a mountain inside a Mars' Gale Crater might have formed. At left, the crater fills with layers of sediment. Yellow is for deposits in alluvial fans, deltas, and drifts during both wet and dry periods.

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This series of images reconstructs the geology of the region around Mars' Mount Sharp, where NASA's Curiosity Mars rover landed and is now driving. The images were taken on Earth and have been altered for the illustration.
This series of images reconstructs the geology of the region around Mars' Mount Sharp, where NASA's Curiosity Mars rover landed and is now driving. The images were taken on Earth and have been altered for the illustration.

Sediment Accumulation in Dry and Wet Periods

This series of images reconstructs the geology of the region around Mars' Mount Sharp, where NASA's Curiosity Mars rover landed and is now driving. The images were taken on Earth and have been altered for the illustration.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft:
Instrument:
Size: 5271 x 1865
ID#: PIA19078
Added: 2014-12-08

Views: 2568

Sediment Accumulation in Dry and Wet Periods

This series of images reconstructs the geology of the region around Mars' Mount Sharp, where NASA's Curiosity Mars rover landed and is now driving. The images were taken on Earth and have been altered for the illustration.

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Lozenge-shaped crystals are evident in this magnified view of a Martian rock target called 'Mojave,' taken on Nov. 15, 2014, by NASA's Curiosity Mars rover. These features record concentration of dissolved salts, possibly in a drying lake.
Lozenge-shaped crystals are evident in this magnified view of a Martian rock target called 'Mojave,' taken on Nov. 15, 2014, by NASA's Curiosity Mars rover. These features record concentration of dissolved salts, possibly in a drying lake.

Crystals May Have Formed in Drying Martian Lake

Lozenge-shaped crystals are evident in this magnified view of a Martian rock target called 'Mojave,' taken on Nov. 15, 2014, by NASA's Curiosity Mars rover. These features record concentration of dissolved salts, possibly in a drying lake.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mars Hand Lens Imager (MAHLI)
Size: 2876 x 3014
ID#: PIA19077
Added: 2014-12-08

Views: 2893

Crystals May Have Formed in Drying Martian Lake

Lozenge-shaped crystals are evident in this magnified view of a Martian rock target called 'Mojave,' taken on Nov. 15, 2014, by NASA's Curiosity Mars rover. These features record concentration of dissolved salts, possibly in a drying lake.

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This view from the NASA's Curiosity Mars rover shows an example of cross-bedding that results from water passing over a loose bed of sediment. It was taken at a target called 'Whale Rock' within the 'Pahrump Hills' outcrop at the base of Mount Sharp.
This view from the NASA's Curiosity Mars rover shows an example of cross-bedding that results from water passing over a loose bed of sediment. It was taken at a target called 'Whale Rock' within the 'Pahrump Hills' outcrop at the base of Mount Sharp.

Cross-Bedding at 'Whale Rock'

This view from the NASA's Curiosity Mars rover shows an example of cross-bedding that results from water passing over a loose bed of sediment. It was taken at a target called 'Whale Rock' within the 'Pahrump Hills' outcrop at the base of Mount Sharp.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 4006 x 1929
ID#: PIA19076
Added: 2014-12-08

Views: 4556

Cross-Bedding at 'Whale Rock'

This view from the NASA's Curiosity Mars rover shows an example of cross-bedding that results from water passing over a loose bed of sediment. It was taken at a target called 'Whale Rock' within the 'Pahrump Hills' outcrop at the base of Mount Sharp.

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This image from NASA's Curiosity Mars rover shows an example of a thin-laminated, evenly stratified rock type that occurs in the 'Pahrump Hills' outcrop at the base of Mount Sharp on Mars. This type of rock can form under a lake.
This image from NASA's Curiosity Mars rover shows an example of a thin-laminated, evenly stratified rock type that occurs in the 'Pahrump Hills' outcrop at the base of Mount Sharp on Mars. This type of rock can form under a lake.

Thin-Laminated Rock in 'Pahrump Hills' Outcrop

This image from NASA's Curiosity Mars rover shows an example of a thin-laminated, evenly stratified rock type that occurs in the 'Pahrump Hills' outcrop at the base of Mount Sharp on Mars. This type of rock can form under a lake.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 2011 x 1198
ID#: PIA19075
Added: 2014-12-08

Views: 2452

Thin-Laminated Rock in 'Pahrump Hills' Outcrop

This image from NASA's Curiosity Mars rover shows an example of a thin-laminated, evenly stratified rock type that occurs in the 'Pahrump Hills' outcrop at the base of Mount Sharp on Mars. This type of rock can form under a lake.

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This evenly layered rock photographed by the Mast Camera (Mastcam) on NASA's Curiosity Mars Rover on Aug. 7, 2014, shows a pattern typical of a lake-floor sedimentary deposit not far from where flowing water entered a lake.
This evenly layered rock photographed by the Mast Camera (Mastcam) on NASA's Curiosity Mars Rover on Aug. 7, 2014, shows a pattern typical of a lake-floor sedimentary deposit not far from where flowing water entered a lake.

Sedimentary Signs of a Martian Lakebed

This evenly layered rock photographed by the Mast Camera (Mastcam) on NASA's Curiosity Mars Rover on Aug. 7, 2014, shows a pattern typical of a lake-floor sedimentary deposit not far from where flowing water entered a lake.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 1588 x 1160
ID#: PIA19074
Added: 2014-12-08

Views: 11172

Sedimentary Signs of a Martian Lakebed

This evenly layered rock photographed by the Mast Camera (Mastcam) on NASA's Curiosity Mars Rover on Aug. 7, 2014, shows a pattern typical of a lake-floor sedimentary deposit not far from where flowing water entered a lake.

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This diagram depicts a vertical cross section through geological layers deposited by rivers, deltas and lakes. Deposits from a series of successive deltas build out increasingly high in elevation as they migrate toward the center of the basin.
This diagram depicts a vertical cross section through geological layers deposited by rivers, deltas and lakes. Deposits from a series of successive deltas build out increasingly high in elevation as they migrate toward the center of the basin.

Multiple Deltas Built Out Over Time

This diagram depicts a vertical cross section through geological layers deposited by rivers, deltas and lakes. Deposits from a series of successive deltas build out increasingly high in elevation as they migrate toward the center of the basin.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft:
Instrument:
Size: 1391 x 467
ID#: PIA19073
Added: 2014-12-08

Views: 1156

Multiple Deltas Built Out Over Time

This diagram depicts a vertical cross section through geological layers deposited by rivers, deltas and lakes. Deposits from a series of successive deltas build out increasingly high in elevation as they migrate toward the center of the basin.

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This image shows inclined beds characteristic of delta deposits where a stream entered a lake, but at a higher elevation and farther south than other delta deposits north of Mount Sharp.
This image shows inclined beds characteristic of delta deposits where a stream entered a lake, but at a higher elevation and farther south than other delta deposits north of Mount Sharp.

Sol 696 (July 22, 2014), Left

This image shows inclined beds characteristic of delta deposits where a stream entered a lake, but at a higher elevation and farther south than other delta deposits north of Mount Sharp.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 2440 x 1049
ID#: PIA19072
Added: 2014-12-08

Views: 1568

Sol 696 (July 22, 2014), Left

This image shows inclined beds characteristic of delta deposits where a stream entered a lake, but at a higher elevation and farther south than other delta deposits north of Mount Sharp.

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This diagram depicts rivers entering a lake. Where the water's flow decelerates, sediments drop out, and a delta forms, depositing a prism of sediment that tapers out toward the lake's interior.
This diagram depicts rivers entering a lake. Where the water's flow decelerates, sediments drop out, and a delta forms, depositing a prism of sediment that tapers out toward the lake's interior.

How a Delta Forms Where River Meets Lake

This diagram depicts rivers entering a lake. Where the water's flow decelerates, sediments drop out, and a delta forms, depositing a prism of sediment that tapers out toward the lake's interior.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft:
Instrument:
Size: 1931 x 1078
ID#: PIA19071
Added: 2014-12-08

Views: 1674

How a Delta Forms Where River Meets Lake

This diagram depicts rivers entering a lake. Where the water's flow decelerates, sediments drop out, and a delta forms, depositing a prism of sediment that tapers out toward the lake's interior.

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This image from Curiosity's Mastcam looks to the west of a waypoint on the rover's route to Mount Sharp. The mountain lies to the left of the scene.
This image from Curiosity's Mastcam looks to the west of a waypoint on the rover's route to Mount Sharp. The mountain lies to the left of the scene.

Sets of Beds Inclined Toward Mount Sharp

This image from Curiosity's Mastcam looks to the west of a waypoint on the rover's route to Mount Sharp. The mountain lies to the left of the scene.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 6246 x 2048
ID#: PIA19070
Added: 2014-12-08

Views: 1692

Sets of Beds Inclined Toward Mount Sharp

This image from Curiosity's Mastcam looks to the west of a waypoint on the rover's route to Mount Sharp. The mountain lies to the left of the scene.

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On March 25, 2014, view from the Mastcam on NASA's Curiosity Mars rover looks southward at the Kimberley waypoint. Multiple sandstone beds show systematic inclination to the south suggesting progressive build-out of delta sediments.
On March 25, 2014, view from the Mastcam on NASA's Curiosity Mars rover looks southward at the Kimberley waypoint. Multiple sandstone beds show systematic inclination to the south suggesting progressive build-out of delta sediments.

Bedding Pattern Interpreted as Martian Delta Deposition

On March 25, 2014, view from the Mastcam on NASA's Curiosity Mars rover looks southward at the Kimberley waypoint. Multiple sandstone beds show systematic inclination to the south suggesting progressive build-out of delta sediments.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 4657 x 1024
ID#: PIA19069
Added: 2014-12-08

Views: 1808

Bedding Pattern Interpreted as Martian Delta Deposition

On March 25, 2014, view from the Mastcam on NASA's Curiosity Mars rover looks southward at the Kimberley waypoint. Multiple sandstone beds show systematic inclination to the south suggesting progressive build-out of delta sediments.

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This image from Curiosity's Mastcam shows inclined beds of sandstone interpreted as the deposits of small deltas fed by rivers flowing down from the Gale Crater rim and building out into a lake where Mount Sharp is now.
This image from Curiosity's Mastcam shows inclined beds of sandstone interpreted as the deposits of small deltas fed by rivers flowing down from the Gale Crater rim and building out into a lake where Mount Sharp is now.

Inclined Martian Sandstone Beds Near 'Kimberley'

This image from Curiosity's Mastcam shows inclined beds of sandstone interpreted as the deposits of small deltas fed by rivers flowing down from the Gale Crater rim and building out into a lake where Mount Sharp is now.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: Mastcam
Size: 3619 x 2196
ID#: PIA19068
Added: 2014-12-08

Views: 1706

Inclined Martian Sandstone Beds Near 'Kimberley'

This image from Curiosity's Mastcam shows inclined beds of sandstone interpreted as the deposits of small deltas fed by rivers flowing down from the Gale Crater rim and building out into a lake where Mount Sharp is now.

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This map shows the route driven by NASA's Curiosity Mars rover from the location where it landed in August 2012 to the 'Pahrump Hills' outcrop at the base of Mount Sharp.
This map shows the route driven by NASA's Curiosity Mars rover from the location where it landed in August 2012 to the 'Pahrump Hills' outcrop at the base of Mount Sharp.

Curiosity Mars Rover's Route from Landing to Base of Mount Sharp

This map shows the route driven by NASA's Curiosity Mars rover from the location where it landed in August 2012 to the 'Pahrump Hills' outcrop at the base of Mount Sharp.

Target:
Mission: Mars Reconnaissance Orbiter (MRO), Mars Science Laboratory (MSL)
Spacecraft: Mars Science Laboratory (MSL)
Instrument: High Resolution Imaging Science Experiment (HiRISE)
Size: 3300 x 2550
ID#: PIA19067
Added: 2014-12-08

Views: 1032

Curiosity Mars Rover's Route from Landing to Base of Mount Sharp

This map shows the route driven by NASA's Curiosity Mars rover from the location where it landed in August 2012 to the 'Pahrump Hills' outcrop at the base of Mount Sharp.

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This view from ASA's Curiosity Mars rover shows a swath of bedrock called 'Alexander Hills,' which the rover approached for close-up inspection of selected targets. It is a mosaic of six frames taken on Nov. 23, 2014.
This view from ASA's Curiosity Mars rover shows a swath of bedrock called 'Alexander Hills,' which the rover approached for close-up inspection of selected targets. It is a mosaic of six frames taken on Nov. 23, 2014.

Within Rover's Reach at Mars Target Area 'Alexander Hills'

This view from ASA's Curiosity Mars rover shows a swath of bedrock called 'Alexander Hills,' which the rover approached for close-up inspection of selected targets. It is a mosaic of six frames taken on Nov. 23, 2014.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 4188 x 2799
ID#: PIA19066
Added: 2014-11-25

Views: 4231

Within Rover's Reach at Mars Target Area 'Alexander Hills'

This view from ASA's Curiosity Mars rover shows a swath of bedrock called 'Alexander Hills,' which the rover approached for close-up inspection of selected targets. It is a mosaic of six frames taken on Nov. 23, 2014.

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This northeast-facing view from the lower edge of the pale 'Pahrump Hills' outcrop at the base of Mount Sharp includes wind-sculpted ripples of sand and dust in the middle ground. It was taken by Curiosity's Navcam on Nov. 13, 2014.
This northeast-facing view from the lower edge of the pale 'Pahrump Hills' outcrop at the base of Mount Sharp includes wind-sculpted ripples of sand and dust in the middle ground. It was taken by Curiosity's Navcam on Nov. 13, 2014.

Ripples Beside 'Pahrump Hills' Outcrop at Base of Mount Sharp

This northeast-facing view from the lower edge of the pale 'Pahrump Hills' outcrop at the base of Mount Sharp includes wind-sculpted ripples of sand and dust in the middle ground. It was taken by Curiosity's Navcam on Nov. 13, 2014.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Navigation Camera (MSL)
Size: 1024 x 1024
ID#: PIA18883
Added: 2014-11-18

Views: 2506

Ripples Beside 'Pahrump Hills' Outcrop at Base of Mount Sharp

This northeast-facing view from the lower edge of the pale 'Pahrump Hills' outcrop at the base of Mount Sharp includes wind-sculpted ripples of sand and dust in the middle ground. It was taken by Curiosity's Navcam on Nov. 13, 2014.

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A wheel track cuts through a windblown ripple of dusty sand in this Nov. 7, 2014, image from the Mastcam on NASA's Curiosity rover. The view spans about four feet across.
A wheel track cuts through a windblown ripple of dusty sand in this Nov. 7, 2014, image from the Mastcam on NASA's Curiosity rover. The view spans about four feet across.

Ripple's Interior Exposed by Rover Wheel Track

A wheel track cuts through a windblown ripple of dusty sand in this Nov. 7, 2014, image from the Mastcam on NASA's Curiosity rover. The view spans about four feet across.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 7501 x 2733
ID#: PIA18882
Added: 2014-11-18

Views: 2812

Ripple's Interior Exposed by Rover Wheel Track

A wheel track cuts through a windblown ripple of dusty sand in this Nov. 7, 2014, image from the Mastcam on NASA's Curiosity rover. The view spans about four feet across.

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This patch of Martian bedrock, about 2 feet (70 centimeters) across, is finely layered rock with some pea-size inclusions. It lies near the lowest point of the 'Pahrump Hills' outcrop, which forms part of the basal layer of Mount Sharp.
This patch of Martian bedrock, about 2 feet (70 centimeters) across, is finely layered rock with some pea-size inclusions. It lies near the lowest point of the 'Pahrump Hills' outcrop, which forms part of the basal layer of Mount Sharp.

Fine-Grained, Finely Layered Rock at Base of Martian Mount Sharp

This patch of Martian bedrock, about 2 feet (70 centimeters) across, is finely layered rock with some pea-size inclusions. It lies near the lowest point of the 'Pahrump Hills' outcrop, which forms part of the basal layer of Mount Sharp.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 4185 x 2801
ID#: PIA18881
Added: 2014-11-18

Views: 3943

Fine-Grained, Finely Layered Rock at Base of Martian Mount Sharp

This patch of Martian bedrock, about 2 feet (70 centimeters) across, is finely layered rock with some pea-size inclusions. It lies near the lowest point of the 'Pahrump Hills' outcrop, which forms part of the basal layer of Mount Sharp.

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This small ridge, about 3 feet long, appears to resist wind erosion more than the flatter plates around it. Such differences are among the traits NASA's Curiosity Mars rover is examining at selected rock targets at the base of Mount Sharp.
This small ridge, about 3 feet long, appears to resist wind erosion more than the flatter plates around it. Such differences are among the traits NASA's Curiosity Mars rover is examining at selected rock targets at the base of Mount Sharp.

Erosion Resistance at 'Pink Cliffs' at Base of Martian Mount Sharp

This small ridge, about 3 feet long, appears to resist wind erosion more than the flatter plates around it. Such differences are among the traits NASA's Curiosity Mars rover is examining at selected rock targets at the base of Mount Sharp.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 3528 x 1304
ID#: PIA18880
Added: 2014-11-18

Views: 5143

Erosion Resistance at 'Pink Cliffs' at Base of Martian Mount Sharp

This small ridge, about 3 feet long, appears to resist wind erosion more than the flatter plates around it. Such differences are among the traits NASA's Curiosity Mars rover is examining at selected rock targets at the base of Mount Sharp.

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The first demonstration of NASA's MAVEN Mars orbiter's capability to relay data from a Mars surface mission, on Nov. 6, 2014, included this image, taken Oct. 23, 2014, by Curiosity's Navigation Camera, showing part of 'Pahrump Hills' outcrop.
The first demonstration of NASA's MAVEN Mars orbiter's capability to relay data from a Mars surface mission, on Nov. 6, 2014, included this image, taken Oct. 23, 2014, by Curiosity's Navigation Camera, showing part of 'Pahrump Hills' outcrop.

Image Relayed by MAVEN Mars Orbiter from Curiosity Mars Rover

The first demonstration of NASA's MAVEN Mars orbiter's capability to relay data from a Mars surface mission, on Nov. 6, 2014, included this image, taken Oct. 23, 2014, by Curiosity's Navigation Camera, showing part of 'Pahrump Hills' outcrop.

Target:
Mission: Mars Exploration Rover (MER), Mars Atmosphere and Volatile Evolution MissioN (MAVEN)
Spacecraft: Curiosity, MAVEN
Instrument: Navigation Camera
Size: 1024 x 1024
ID#: PIA18866
Added: 2014-11-10

Views: 3701

Image Relayed by MAVEN Mars Orbiter from Curiosity Mars Rover

The first demonstration of NASA's MAVEN Mars orbiter's capability to relay data from a Mars surface mission, on Nov. 6, 2014, included this image, taken Oct. 23, 2014, by Curiosity's Navigation Camera, showing part of 'Pahrump Hills' outcrop.

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This image from an animiation of comet C/2013 A1 Siding Spring were taken by the Mast Camera (Mastcam) on NASA's Curiosity Mars rover as the comet passed near the red planet on Oct. 19, 2014.
This image from an animiation of comet C/2013 A1 Siding Spring were taken by the Mast Camera (Mastcam) on NASA's Curiosity Mars rover as the comet passed near the red planet on Oct. 19, 2014.

Mars Curiosity Rover Views Comet Siding Spring

This image from an animiation of comet C/2013 A1 Siding Spring were taken by the Mast Camera (Mastcam) on NASA's Curiosity Mars rover as the comet passed near the red planet on Oct. 19, 2014.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 2040 x 1200
ID#: PIA19043
Added: 2014-11-05

Views: 1162

Mars Curiosity Rover Views Comet Siding Spring

This image from an animiation of comet C/2013 A1 Siding Spring were taken by the Mast Camera (Mastcam) on NASA's Curiosity Mars rover as the comet passed near the red planet on Oct. 19, 2014.

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This view shows the path and some key places in a survey of the 'Pahrump Hills' outcrop by NASA's Curiosity Mars rover in autumn of 2014. The outcrop is at the base of Mount Sharp within Gale Crater.
This view shows the path and some key places in a survey of the 'Pahrump Hills' outcrop by NASA's Curiosity Mars rover in autumn of 2014. The outcrop is at the base of Mount Sharp within Gale Crater.

Mars Rover Curiosity's Walkabout at 'Pahrump Hills'

This view shows the path and some key places in a survey of the 'Pahrump Hills' outcrop by NASA's Curiosity Mars rover in autumn of 2014. The outcrop is at the base of Mount Sharp within Gale Crater.

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Mastcam
Size: 4067 x 2184
ID#: PIA19039
Added: 2014-11-04

Views: 3392

Mars Rover Curiosity's Walkabout at 'Pahrump Hills'

This view shows the path and some key places in a survey of the 'Pahrump Hills' outcrop by NASA's Curiosity Mars rover in autumn of 2014. The outcrop is at the base of Mount Sharp within Gale Crater.

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This side-by-side comparison shows the X-ray diffraction patterns of two different samples collected from rocks on Mars by NASA's Curiosity rover. The images present data obtained by Curiosity's Chemistry and Mineralogy instrument (CheMin).
This side-by-side comparison shows the X-ray diffraction patterns of two different samples collected from rocks on Mars by NASA's Curiosity rover. The images present data obtained by Curiosity's Chemistry and Mineralogy instrument (CheMin).

Signature of Hematite in 'Confidence Hills' Martian Rock

This side-by-side comparison shows the X-ray diffraction patterns of two different samples collected from rocks on Mars by NASA's Curiosity rover. The images present data obtained by Curiosity's Chemistry and Mineralogy instrument (CheMin).

Target:
Mission: Mars Science Laboratory (MSL)
Spacecraft: Curiosity
Instrument: Chemistry & Mineralogy (CheMin)
Size: 912 x 498
ID#: PIA19038
Added: 2014-11-04

Views: 1744

Signature of Hematite in 'Confidence Hills' Martian Rock

This side-by-side comparison shows the X-ray diffraction patterns of two different samples collected from rocks on Mars by NASA's Curiosity rover. The images present data obtained by Curiosity's Chemistry and Mineralogy instrument (CheMin).

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