A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.

A new video rings in the rover’s ninth year on Mars, letting viewers tour Curiosity’s location on a Martian mountain.

Images of knobbly rocks and rounded hills are delighting scientists as NASA’s Curiosity rover climbs Mount Sharp, a 5-mile-tall (8-kilometer-tall) mountain within the 96-mile-wide (154-kilometer-wide) basin of Mars’ Gale Crater. The rover’s Mast Camera, or Mastcam, highlights those features in a panorama captured on July 3, 2021 (the 3,167th Martian day, or sol, of the mission).

This location is particularly exciting: Spacecraft orbiting Mars show that Curiosity is now somewhere between a region enriched with clay minerals and one dominated by salty minerals called sulfates. The mountain’s layers in this area may reveal how the ancient environment within Gale Crater dried up over time. Similar changes are seen across the planet, and studying this region up close has been a major long-term goal for the mission.

“The rocks here will begin to tell us how this once-wet planet changed into the dry Mars of today, and how long habitable environments persisted even after that happened,” said Abigail Fraeman, Curiosity’s deputy project scientist, at NASA’s Jet Propulsion Laboratory in Southern California.

Nine Years on Mars

Curiosity landed nine years ago, on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT), to study whether different Martian environments could have supported microbial life in the planet’s ancient past, when lakes and groundwater existed within Gale Crater.

The rover pulverizes rock samples with a drill on its robotic arm, then sprinkles the powder into the rover’s chassis, where a pair of instruments determines which chemicals and minerals are present. Curiosity recently drilled its 32nd rock sample from a target nicknamed “Pontours” that will help detail the transition from the region of clay minerals to the one dominated by sulfates.

Because it’s winter at Curiosity’s location, the skies in the new panorama are relatively dust-free, providing a clear view all the way down to Gale Crater’s floor. It’s provided an opportunity for the mission team to reflect on the 16 miles (26 kilometers) Curiosity has driven during the mission.

“Landing day is still one of the happiest days of my professional career,” said the mission’s new project manager, Megan Richardson Lin of NASA’s Jet Propulsion Laboratory in Southern California. Lin started working on Curiosity just before it launched, joining the surface operations team shortly afterward. She’s held several roles on the mission since then. “We’re driving a robot as it explores another planet. Seeing how new discoveries and scientific results guide each day’s activities is extremely rewarding.”

There’s more to discover on the road ahead. Curiosity has already started up a path winding between “Rafael Navarro Mountain,” recently nicknamed to honor a deceased mission scientist, and a towering butte that’s taller than a four-story building. In the coming year, the rover will drive past these two features into a narrow canyon before revisiting the “Greenheugh Pediment,” a slope with a sandstone cap that the rover briefly summited last year.

More about Curiosity is at:

https://mars.nasa.gov/msl/home/

https://nasa.gov/msl/

News Media Contact

Andrew Good

Jet Propulsion Laboratory, Pasadena, Calif.

818-393-2433

[email protected]

Karen Fox / Josh Handal

NASA Headquarters, Washington

301-286-6284 / 202-358-1600

[email protected] / [email protected]

Credit: NASA/JPL-Caltech.