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Mars lander preview

A preview of NASA's Phoenix Mars lander mission and the science objectives to dig into the arctic plains of the Red Planet are presented here.

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Phoenix animation

Project officials narrate animation of Phoenix's launch from Earth, arrival at Mars, touchdown using landing rockets and the craft's robot arm and science gear in action.

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Dawn launch delay

Jim Green, director of the Planetary Science Division at NASA Headquarters, explains why the agency decided to delay launch of the Dawn asteroid probe from July to September.

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Endeavour rolls to VAB

Shuttle Endeavour is transported from its hangar to the Vehicle Assembly Building for joining with a fuel tank and boosters for launch on STS-118.

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Welcome home, Atlantis

The Shuttle Carrier Aircraft touches down on Kennedy Space Center's Runway 15 on July 3, delivering Atlantis back to its homeport after a two-day coast-to-coast ferry flight.

 Landing | Tow

Atlantis heads home

Nine days after landing at Edwards Air Force Base to conclude the STS-117 mission, Atlantis begins its cross-country ferry flight back to Florida.

 Taxi | Takeoff

Dawn preview movie

Learn more about the upcoming Dawn mission that will use an ion engine propulsion system to visit two of the largest objects in the asteroid belt.

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NASA, Canada sign future cooperation agreement
NASA NEWS RELEASE
Posted: July 16, 2007

WASHINGTON -- At a ceremony held Monday at NASA Headquarters in Washington, NASA Deputy Administrator Shana Dale and Canadian Space Agency (CSA) President and Chief Executive Officer Laurier J. Boisvert signed the official agreement that defines the terms of the agencies' cooperation on the James Webb Space Telescope.

According to the agreement, NASA will be responsible for the overall management and operations of the mission and will build the spacecraft, the telescope, and the platform that will host the instruments.

"We're delighted to have the Canadian Space Agency's participation on the James Webb Telescope," said Dale. "This unique telescope is a wonderful example of international cooperation, and Canada is a key partner in this next major step to discover more about the origins of the cosmos."

The Canadian Space Agency plans to provide the fine guidance sensor instrument, used for locating and maintaining a fixed pointing on a guide star. This instrument will provide the observatory with the stability necessary for taking sharp images with the telescope. The agency will assist in the operation of the James Webb Space Telescope and related facilities and arrange for participation of astronomers from the Canadian science team in the observation program.

"Canada's collaboration on the James Webb Space Telescope," Boisvert said, "strengthens our outstanding and longstanding partnership with NASA and positions Canadian science and technology in the forefront of space exploration."

Although optimized to operate over a different range of wavelengths, the James Webb Space Telescope is considered to be the successor to the Hubble Space Telescope. Its launch is targeted for 2013, and the telescope is designed to operate for at least five years.

The telescope is a mission of international cooperation among NASA, CSA and the European Space Agency to investigate the origin and evolution of galaxies, stars and planetary systems.

At the heart of the observatory is a large telescope whose primary mirror is more than two and a half times larger than that on Hubble, providing a relatively large field of view. The mirror for the James Webb Space Telescope is 21.3 ft in diameter; Hubble's mirror is 7.9 ft. in diameter.

A set of four sophisticated instruments, including the fine guidance sensor, will combine superb imaging capability at visible and infrared wavelengths with various spectroscopic modes to learn about the chemistry and evolution of the objects populating our universe.

The telescope will operate considerably outside the Earth's atmosphere at a point in deep space four times farther than the moon's orbit, in the direction opposite to the sun. This area, located approximately 1 million miles away, is known as the second Lagrange point. From this location, the observatory is expected to enable new scientific discoveries about the cosmos, just as Hubble does.