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updated: 8/6/2012 1:24 PM

Photos illustrate Mars rover's precise landing

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  • This  photo made available by NASA shows the Curiosity rover, bottom, and its parachute descending to the surface from the vantage point of the Mars Reconnaissance Orbiter.Summary

      This photo made available by NASA shows the Curiosity rover, bottom, and its parachute descending to the surface from the vantage point of the Mars Reconnaissance Orbiter.Summary
    Associated Press

  • Shannon Lampton, and Charlene Pittman, both educators with the U.S. Space and Rocket Center, cheer as they watch NASA's Mars Curiosity rover land on Mars during a special viewing event at the U.S. Space and Rocket Center Monday, Aug. 6, 2012 in Huntsville, Ala.

      Shannon Lampton, and Charlene Pittman, both educators with the U.S. Space and Rocket Center, cheer as they watch NASA's Mars Curiosity rover land on Mars during a special viewing event at the U.S. Space and Rocket Center Monday, Aug. 6, 2012 in Huntsville, Ala.
    Associated Press

  • This artist's rendering released by NASA/JPL-Caltech shows how NASA's Curiosity rover communicated with Earth during landing. As the rover descended to the surface of Mars, it sent out two different types of data: basic radio-frequency tones that go directly to Earth (pink dots) and more complex UHF radio data (blue circles) that require relaying by orbiters. NASA's Odyssey orbiter picked up the UHF signal and relayed it immediately back to Earth, while NASA's Mars Reconnaissance Orbiter recorded the UHF data and played it back to Earth.

      This artist's rendering released by NASA/JPL-Caltech shows how NASA's Curiosity rover communicated with Earth during landing. As the rover descended to the surface of Mars, it sent out two different types of data: basic radio-frequency tones that go directly to Earth (pink dots) and more complex UHF radio data (blue circles) that require relaying by orbiters. NASA's Odyssey orbiter picked up the UHF signal and relayed it immediately back to Earth, while NASA's Mars Reconnaissance Orbiter recorded the UHF data and played it back to Earth.
    Associated Press

  • In this black and white photo released by NASA's JPL-Caltech, Curiosity rover snaps picture of its shadow. This is the first image taken by NASA's Curiosity rover, which landed on Mars the evening of Aug. 5 PDT . It was taken through a "fisheye" wide-angle lens on one of the rover's rear left Hazard-Avoidance cameras at one-quarter of full resolution. The clear dust cover on the camera is still on in this view, and dust can be seen around its edge, along with three cover fasteners. Larger color images are expected later in the week when the rover's mast, carrying high-resolution cameras, is deployed.

      In this black and white photo released by NASA's JPL-Caltech, Curiosity rover snaps picture of its shadow. This is the first image taken by NASA's Curiosity rover, which landed on Mars the evening of Aug. 5 PDT . It was taken through a "fisheye" wide-angle lens on one of the rover's rear left Hazard-Avoidance cameras at one-quarter of full resolution. The clear dust cover on the camera is still on in this view, and dust can be seen around its edge, along with three cover fasteners. Larger color images are expected later in the week when the rover's mast, carrying high-resolution cameras, is deployed.
    NASA

  • Hundreds watch the images from Mars on the big screen as they watch NASA's Mars Curiosity rover land on Mars during a special viewing event at the U.S. Space and Rocket Center Monday, August 6, 2012 in Huntsville, Ala.

      Hundreds watch the images from Mars on the big screen as they watch NASA's Mars Curiosity rover land on Mars during a special viewing event at the U.S. Space and Rocket Center Monday, August 6, 2012 in Huntsville, Ala.
    Associated Press

  • Members of the Mars Science Laboratory (MSL) team work in the MSL Mission Support Area Sunday at the Jet Propulsion Laboratory hours ahead of the planned landing of the Curiosity rover on Mars.

      Members of the Mars Science Laboratory (MSL) team work in the MSL Mission Support Area Sunday at the Jet Propulsion Laboratory hours ahead of the planned landing of the Curiosity rover on Mars.
    Associated Press

  • Mars Science Laboratory Curiosity team member, Miguel San Martin, Chief Engineer, Guidance, Navigation, and Control at Jet Propulsion Laboratory, left, celebrates with Adam Steltzner, MSL entry, descent and landing (EDL) of the Mars Science Laboratory (MSL), right, after the successful landing.

      Mars Science Laboratory Curiosity team member, Miguel San Martin, Chief Engineer, Guidance, Navigation, and Control at Jet Propulsion Laboratory, left, celebrates with Adam Steltzner, MSL entry, descent and landing (EDL) of the Mars Science Laboratory (MSL), right, after the successful landing.
    Associated Press

  • In this photo released by NASA's JPL, this is one of the first images taken by NASA's Curiosity rover, which landed on Mars the evening of Aug. 5 PDT ). It was taken with a

      In this photo released by NASA's JPL, this is one of the first images taken by NASA's Curiosity rover, which landed on Mars the evening of Aug. 5 PDT ). It was taken with a
    NASA

  • Video: NASA: Landing beautiful

 
Associated Press

PASADENA, Calif. -- The robotic explorer Curiosity's daring plunge through the pink skies of Mars was more than perfect. It landed with spectacular style, said a NASA scientist, describing the first images of its mechanical gymnastics.

Hours after NASA learned the rover had arrived on target, engineers and scientists got the first glimpses of the intricate maneuvers it made to hit the Martian soil safely.

"It's a spectacular image," said NASA research scientist Luther Beegle. The photo, taken from an orbiting Mars spacecraft, shows Curiosity dangling from its supersonic parachute as it descended.

Extraordinary efforts were needed for the landing because the rover weighs one ton, and the Martian atmosphere is very thin, not offering much friction to slow the spacecraft down.

More images, including video of the landing and beautiful color shots of Mars, will follow in days to come. It will be weeks before Curiosity starts digging into the red planet's past.

Cheers and applause echoed through the NASA Jet Propulsion Laboratory late Sunday after signals from space indicated Curiosity had survived the harrowing plunge.

"Touchdown confirmed," said engineer Allen Chen. "We're safe on Mars."

Minutes after the landing signal reached Earth at 10:32 p.m. PDT, Curiosity beamed back the first black-and-white pictures from inside the crater showing its wheel and its shadow, cast by the afternoon sun.

"We landed in a nice flat spot. Beautiful, really beautiful," said engineer Adam Steltzner, who led the team that devised the tricky landing routine.

It was NASA's seventh landing on Earth's neighbor; many other attempts by the U.S. and other countries to zip past, circle or set down on Mars have gone awry.

The arrival was an engineering tour de force, debuting never-before-tried acrobatics packed into "seven minutes of terror" as Curiosity sliced through the Martian atmosphere at 13,000 mph.

In a Hollywood-style finish, cables delicately lowered the rover to the ground at a snail-paced 2 mph. A video camera was set to capture the most dramatic moments -- which would give Earthlings their first glimpse of a touchdown on another world.

JPL Director Charles Elachi compared the team to Olympic athletes.

"This team came back with the gold," he said.

The extraterrestrial feat injected a much-needed boost to NASA, which is debating whether it can afford another robotic Mars landing this decade. At a budget-busting $2.5 billion, Curiosity is the priciest gamble yet, which scientists hope will pay off with a bonanza of discoveries and pave the way for astronaut landings.

"The wheels of Curiosity have begun to blaze the trail for human footprints on Mars," said NASA chief Charles Bolden.

President Barack Obama lauded the landing in a statement, calling it "an unprecedented feat of technology that will stand as a point of national pride far into the future."

Over the next two years, Curiosity will drive over to a mountain rising from the crater floor, poke into rocks and scoop up rust-tinted soil to see if the region ever had the right environment for microscopic organisms to thrive. It's the latest chapter in the long-running quest to find out whether primitive life arose early in the planet's history.

The voyage to Mars took more than eight months and spanned 352 million miles.

NASA's last Mars rovers, twins Spirit and Opportunity, weighed much less and were easier to land back in 2004, cocooned in air bags.

Curiosity relied on a series of braking tricks, similar to those used by the space shuttle, a heat shield and a supersonic parachute to slow down as it punched through the atmosphere.

And in a new twist, engineers came up with a way to lower the rover by cable from a hovering rocket-powered backpack. At touchdown, the cords cut and the rocket stage crashed a distance away.

The nuclear-powered Curiosity, the size of a small car, is packed with scientific tools, cameras and a weather station. It sports a robotic arm with a power drill, a laser that can zap distant rocks, a chemistry lab to sniff for the chemical building blocks of life and a detector to measure dangerous radiation on the surface.

It also tracked radiation levels during the journey to help NASA better understand the risks astronauts could face on a future manned trip.

There will be several weeks of health checkups before the six-wheel rover takes its first short drive and flexes its robotic arm.

The landing site near Mars' equator was picked because there are signs of past water everywhere, meeting one of the requirements for life as we know it. Inside Gale Crater is a 3-mile-high mountain, and images from space show the base appears rich in minerals that formed in the presence of water.

Previous trips to Mars have uncovered ice near the Martian north pole and evidence that water once flowed when the planet was wetter and toastier unlike today's harsh, frigid desert environment.

Curiosity's goal: to scour for basic ingredients essential for life including carbon, nitrogen, phosphorus, sulfur and oxygen. It's not equipped to search for living or fossil microorganisms.

The mission comes as NASA retools its Mars exploration strategy. Faced with tough economic times, the space agency pulled out of partnership with the European Space Agency to land a rock-collecting rover in 2018. The Europeans have since teamed with the Russians as NASA decides on a new roadmap.

Despite Mars' reputation as a spacecraft graveyard, humans continue their love affair with the planet, lobbing spacecraft in search of clues about its early history. Out of more than three dozen attempts -- flybys, orbiters and landings -- by the U.S., Soviet Union, Europe and Japan since the 1960s, more than half have ended disastrously.

One NASA rover that defied expectations is Opportunity, which is still busy wheeling around the rim of a crater in the Martian southern hemisphere eight years later.

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