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Mars rover sends incredible photos

NASA

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Mars rover sends incredible photos

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  1. This is the first 360-degree panorama in color of the Gale Crater landing site taken by NASA's Curiosity rover on Mars. In the next few days, the software on Curiosity will be optimized for surface operation.

  2. This cut-out from a color panorama image taken by NASA's Curiosity rover shows the effects of the descent stage's rocket engines blasting the ground. It comes from the left side of the thumbnail panorama obtained by Curiosity's Mast Camera.

  3. This cut-out from a color panorama image taken by NASA's Curiosity rover shows the effects of the descent stage's rocket engines blasting the ground. It comes from the right side of the thumbnail panorama obtained by Curiosity's Mast Camera.Image credit: NASA/JPL-Caltech/MSSS

  4. This is a portion of the first color 360-degree panorama from NASA's Curiosity rover, made up of thumbnails, which are small copies of higher-resolution images. The mission's destination, a mountain at the center of Gale Crater called Mount Sharp, can be seen in the distance, to the left, beginning to rise up. The mountain's summit will be imaged later. The full thumbnail panorama from the Mast Camera can bee seen at PIA16029. Blast marks from the rover's descent stage are in the foreground. Image credit: NASA/JPL-Caltech/MSSS

  5. This full-resolution self-portrait shows the deck of NASA's Curiosity rover from the rover's Navigation cameras. The back of the rover can be seen at the top left of the image, and two of the rover's right side wheels can be seen on the left. Part of the pointy rim of Gale Crater forms the lighter color strip in the background. Bits of gravel, about 0.4 inches (1 centimeter) in size, are visible on the deck of the rover. This mosaic is made of eight images, each of 1,024 by 1,024 pixels, taken late at night on Aug. 7 PDT (early morning Aug. 8 EDT). It uses an average of the Navcam positions to synthesize the point of view of a single camera, with a field of view of 120 degrees. Seams between the images have been minimized, but a few are still visible. The wide field of view introduces some distortion at the edges of the mosaic. Image credit: NASA/JPL-Caltech

  6. These are the first two full-resolution images of the Martian surface from the Navigation cameras on NASA's Curiosity rover, which are located on the rover's \"head\" or mast. The rim of Gale Crater can be seen in the distance beyond the pebbly ground. The topography of the rim is very mountainous due to erosion. The ground seen in the middle shows low-relief scarps and plains. The foreground shows two distinct zones of excavation likely carved out by blasts from the rover's descent stage thrusters.

  7. This is a close-up view of a zone where the soil at Curiosity's landing site was blown away by the thrusters on the rover's descent stage. The excavation of the soil reveals probable bedrock outcrop. This is important because it shows the shallow depth of the soil in this area. The area surrounding the zones of excavation shows abundant small rocks that may form a pavement-like layer above harder bedrock.

  8. This is the first 360-degree panoramic view from NASA's Curiosity rover, taken with the Navigation cameras. Most of the tiles are thumbnails, or small copies of the full-resolution images that have not been sent back to Earth yet. Mount Sharp is to the right, and the north Gale Crater rim can be seen at center. The rover's body is in the foreground, with the shadow of its head, or mast, poking up to the right.

  9. This is the first image taken by the Navigation cameras on NASA's Curiosity rover. It shows the shadow of the rover's now-upright mast in the center, and the arm's shadow at left. The arm itself can be seen in the foreground.The navigation camera is used to help find the sun -- information that is needed for locating, and communicating, with Earth. After the camera pointed at the sun, it turned in the opposite direction and took this picture. The position of the shadow helps confirm the sun's location. The \"augmented reality\" or AR tag seen in the foreground can be used in the future with smart phones to obtain more information about the mission.

  10. This Picasso-like self portrait of NASA's Curiosity rover was taken by its Navigation cameras, located on the now-upright mast. The camera snapped pictures 360-degrees around the rover, while pointing down at the rover deck, up and straight ahead. Those images are shown here in a polar projection. Most of the tiles are thumbnails, or small copies of the full-resolution images that have not been sent back to Earth yet. Two of the tiles are full-resolution.

  11. The Martian landing site of NASA's Curiosity rover puts a color view obtained by the rover in the context of a computer simulation derived from images acquired from orbiting spacecraft, in this picture released by NASA August 7, 2012. NASA/JPL-Caltech/Malin Space Science Systems

  12. NASA-JPL has released the Curiosity rover's first color image of the Martian landscape in this image released August 7, 2012. This view of the landscape to the north of NASA's Mars rover Curiosity was acquired by the Mars Hand Lens Imager (MAHLI) on the afternoon of the first day after landing. In the distance, the image shows the north wall and rim of Gale Crater. The image is murky because the MAHLI's removable dust cover is apparently coated with dust blown onto the camera during the rover's terminal descent. Images taken without the dust cover in place are expected during checkout of the robotic arm in coming weeks.NASA/JPL-Caltech/Malin Space Science Systems

  13. NASA's Mars science rover Curiosity's heat shield is pictured by the Mars Descent Imager after it was jettisoned August 5, 2012, in this handout image released by NASA August 6, 2012.NASA-JPL-Calthech

  14. 3-D View from Behind Curiosity This image is a 3-D view behind NASA's Curiosity rover, which landed on Mars on Aug. 5 PDT (Aug. 6 EDT). The anaglyph was made from a stereo pair of Hazard-Avoidance Cameras on the rear of the rover. It has been cropped.Part of the rim of Gale Crater, which is a feature the size of Connecticut and Rhode Island combined, stretches from the top middle to the top right of the image. One of the rover's wheels can be seen at bottom right. The bright spot is saturation from the sun.

  15. 3-D View from the Front of Curiosity This image is a 3-D view in front of NASA's Curiosity rover, which landed on Mars on Aug. 5 PDT (Aug. 6 EDT). The anaglyph was made from a stereo pair of Hazard-Avoidance Cameras on the front of the rover. The image is cropped but part of Mount Sharp, a peak that is about 3.4 miles (5.5 kilometers) high, is still visible rising above the terrain.

  16. This image was captured by Hazard-Avoidance cameras on the front of the rover at full resolution shortly after the rover landed. It has been linearized to remove the distorted appearance that results from its fisheye lens.

  17. The four main pieces of hardware that arrived on Mars with NASA's Curiosity rover were spotted by NASA's Mars Reconnaissance Orbiter (MRO). The High-Resolution Imaging Science Experiment (HiRISE) camera captured this image about 24 hours after landing. The large, reduced-scale image points out the strewn hardware: the heat shield was the first piece to hit the ground, followed by the back shell attached to the parachute, then the rover itself touched down, and finally, after cables were cut, the sky crane flew away to the northwest and crashed. Relatively dark areas in all four spots are from disturbances of the bright dust on Mars, revealing the darker material below the surface dust.

  18. This image comparison shows a view through a Hazard-Avoidance camera on NASA's Curiosity rover before and after the clear dust cover was removed. Both images were taken by a camera at the front of the rover. Mount Sharp, the mission's ultimate destination, looms ahead.The view on the left, with the dust cover on, is one quarter of full resolution, while the view on the right is full resolution. Full-resolution images taken with the dust cover still on are not available at this time.The only other instrument on Curiosity with a dust cover is the Mars Hand Lens Imager (or MAHLI), located on the rover's arm. In this case, the dust cover is not removed but will be opened when needed. This way, the instrument is protected from dust that may be generated from other tools on the rover's arm, in addition to wind-blown dust.Image credit: NASA/JPL-Caltech

  19. This image shows one of the first views from NASA's Curiosity rover, which landed on Mars the evening of Aug. 5 PDT (early morning hours Aug. 6 EDT). It was taken through a \"fisheye\" wide-angle lens on one of the rover's Hazard-Avoidance cameras. These engineering cameras are located at the rover's base. As planned, the early images are lower resolution. Larger color images are expected later in the week when the rover's mast, carrying high-resolution cameras, is deployed. Image credit: NASA/JPL-Caltech

  20. NASA's Curiosity rover and its parachute were spotted by NASA's Mars Reconnaissance Orbiter as Curiosity descended to the surface on Aug. 5 PDT (Aug. 6 EDT). The High-Resolution Imaging Science Experiment (HiRISE) camera captured this image of Curiosity while the orbiter was listening to transmissions from the rover. Curiosity and its parachute are in the center of the white box; the inset image is a cutout of the rover stretched to avoid saturation. The rover is descending toward the etched plains just north of the sand dunes that fringe \"Mt. Sharp.\" From the perspective of the orbiter, the parachute and Curiosity are flying at an angle relative to the surface, so the landing site does not appear directly below the rover.

  21. This image taken by NASA's Curiosity shows what lies ahead for the rover -- its main science target, Mount Sharp. The rover's shadow can be seen in the foreground, and the dark bands beyond are dunes. Rising up in the distance is the highest peak Mount Sharp at a height of about 3.4 miles, taller than Mt. Whitney in California. The Curiosity team hopes to drive the rover to the mountain to investigate its lower layers, which scientists think hold clues to past environmental change.

  22. Curiosity's Early Views of Mars One of the first images from a second batch of images sent from the Curiosity rover is pictured of its wheel after it successfully landed on Mars.NASA's most advanced Mars rover, Curiosity, has landed on the Red Planet. The one-ton rover, hanging by ropes from a rocket backpack, touched down onto Mars early Monday EDT to end a 36-week flight and begin a two-year investigation.

  23. 1st Mars Photos by Curiosity Rover: Shadow This photo shows the shadow of NASA's huge rover Curiosity on Mars just after its Aug. 5 PDT, 2012 landing in Gale Crater. This image is an enlarged version from the original 256-pixel image. Credit: NASA

  24. 1st Mars Photos by Curiosity Rover: Wheel This photo shows one of the six wheels of NASA's huge rover Curiosity on Mars just after the rover's Aug. 5 PDT, 2012 landing in Gale Crater. This image is an enlarged version from the original 256-pixel image. Credit: NASA

  25. A full-circle scene combining 817 images taken by the panoramic camera (Pancam) on NASA's Mars Exploration Rover Opportunity. The US space agency NASA is calling it the \"next best thing to being\" on the Red Planet.

  26. ESA's first mission to the Red Planet is Mars Express. It comprises an orbiter carrying seven scientific instruments to probe the planet's atmosphere, structure and geology, including a search for evidence of hidden water. The main spacecraft will also release the UK's small Beagle 2 lander to gather and test rock and soil samples on the surface. British space probe Beagle 2 failed to broadcast a signal on December 25, 2003, to confirm it had landed on Mars, but scientists said they were waiting for a second contact opportunity later on Thursday. REUTERS/European Space Agency

  27. This image mosaic taken by the Mars Exploration Rover Spirit's panoramic camera shows a new slice of martian real estate southwest of the rover's landing site. The landscape shows little variation in local topography, though a narrow peak only seven to eight kilometres away is visible on the horizon. A circular depression, similar to the one dubbed Sleepy Hollow, can be seen in the foreground. Compared to the Viking and Pathfinder landing sites, the terrain at Gusev Crater, Spirit's landing site, is flat and speckled with a sparse array of rocks. The picture was released by the Jet Propulsion Laboratory in Pasadena, California

  28. Mars Rover Opportunity catches its own late-afternoon shadow in a view eastward across Endeavour Crater on Mars. The rover used a panoramic camera between about 4:30 and 5:00 p.m. local Mars time to record images taken through different filters and combined into this mosaic view. Most of the component images were recorded during the 2,888th Martian day, or sol, of Opportunity's work on Mars, which corresponds to March 9, 2012 on Earth. The view is presented in false color to make some differences between materials easier to see, such as the dark sandy ripples and dunes on the crater's distant floor. Opportunity has been studying the western rim of Endeavour Crater since arriving there in August 2011.

  29. A TextureCam analysis of a Mars image is able to distinguish rocks from soil.

  30. Giant coils of lava on Mars suggest a mysterious network of valleys on the planet was born from volcanoes, researchers say.The origin of the Athabasca Valles region near the equator of Mars has been debated for more than a decade. Some researchers have proposed that lava once shaped the valleys, while others have thought ice was responsible.The way the ground there is patterned with multisided polygons suggests that either fire or ice could be the culprit 2014 such patterns of cracks might have formed due to seasonal fluctuations in temperature if the surface there was rich in ice, but also might have arose as lava cooled and fractured.

  31. Now high-resolution images beamed back by NASA's Mars Reconnaissance Orbiter of the Red Planet have revealed 269 spirals of lava that researchers say cannot be explained by ice-related activity. "This is the first time lava coils have been identified on an extraterrestrial setting," study lead author Andrew Ryan at Arizona State University told SPACE.com. "The most surprising thing about these features when I first saw them was how well-preserved they are."

  32. These spirals resemble lava coils on Earth, such as those forming on the surface of Hawaiian lava flows. "These can only be explained by lava processes," Ryan said. "There are no known processes to twist ice around on that scale."Future modeling of how these spirals formed can help figure out the composition of these lavas, "which can tell you about the composition of the Martian crust and mantle, things we don't know much about," Ryan said.

  33. More photos from the surface of MarsScientists have found evidence of flowing salt water on steep Martian slopes, which if confirmed would be the first discovery of active liquid water on the red planet, NASA has said.

  34. The data gathered by the Mars Reconnaissance Orbiter has given new focus to the hunt for life forms and scientists hope that in the coming years lab experiments and new space missions may shed more light on what they have seen.

  35. The US space agency said the orbiter circling Mars since 2006 had monitored numerous instances of what appeared to be water flows occurring in several locations during the Martian spring and summer.

  36. "The best explanation we have for these observations so far is flow of briny water, although this study does not prove that," said Alfred McEwen of the University of Arizona's Lunar and Planetary Laboratory.

  37. No liquid water has been found on Mars, though ice has been discovered at the poles. All life forms need water to survive, so the existence of a water source could point to a haven for primitive life.

  38. Frozen water has been detected in some of Mars's higher latitudes, and other evidence has suggested that water interacted with the Martian surface throughout the planet's history.

  39. In this image, Comanche is the dark reddish mound above the center of the view. The image is presented in false color, which makes some differences between materials easier to see. It combines three separate exposures taken through filters admitting wavelengths of 750 nanometers, 530 nanometers and 430 nanometers. The main Comanche outcrop is about 5 meters (16 feet) from left to right from this perspective. The paler material visible at bottom right is part of another outcrop, \"Algonquin.\" Image Credit: NASA/JPL-Caltech/Cornell University

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