Sunday, December 30, 2012
NEW ION THRUSTERS MAY TAKE US TO THE EDGE OF THE SOLAR SYSTEM
FROM: NASA
While the Dawn spacecraft is visiting the asteroids Vesta and Ceres, NASA Glenn has been developing the next generation of ion thrusters for future missions. NASA's Evolutionary Xenon Thruster (NEXT) Project has developed a 7-kilowatt ion thruster that can provide the capabilities needed in the future. An ion thruster produces small levels of thrust relative to chemical thrusters, but does so at higher specific impulse (or higher exhaust velocities), which means that an ion thruster has a fuel efficiency of 10-12 times greater than a chemical thruster. The higher the rocket's specific impulse (fuel efficiency), the farther the spacecraft can go with a given amount of fuel. Given that an ion thruster produces small levels of thrust relative to chemical thrusters, it needs to operate in excess of 10,000 hours to slowly accelerate the spacecraft to speeds necessary to reach the asteroid belt or beyond. The NEXT ion thruster has been operated for over 43,000 hours, which for rocket scientists means that the thruster has processed over 770 kilograms of xenon propellant and can provide 30 million-newton-seconds of total impulse to the spacecraft. This demonstrated performance permits future science spacecraft to travel to varied destinations, such as extended tours of multi-asteroids, comets, and outer planets and their moons. Image Credit: NASA
Saturday, December 29, 2012
A REALLY BIG BLACK HOLE
FROM: NASA, BLACK HOLE
The black hole at the center of this galaxy is part of a survey of 18 of the biggest black holes in the universe. This large elliptical galaxy is in the center of the galaxy cluster PKS 0745-19, which is located about 1.3 billion light years from Earth.. X-ray data from NASA's Chandra X-ray Observatory are shown in purple and optical data from the Hubble Space Telescope are in yellow.
The researchers found that these black holes may be about ten times more massive than previously thought, with at least ten of them weighing between 10 and 40 billion times the mass of the sun.
All of the potential "ultramassive" black holes found in this study lie in galaxies at the centers of galaxy clusters containing huge amounts of hot gas. This hot gas produces the diffuse X-ray emission seen in the image. Outbursts powered by the central black holes create cavities in the gas preventing it from cooling and forming enormous numbers of stars. To generate the outbursts, the black holes must swallow large amounts of mass. Because the largest black holes can swallow the most mass and power the biggest outbursts, ultramassive black holes had already been predicted to exist to explain some of the most powerful outbursts seen. Credits: X-ray: NASA/CXC/Stanford/Hlavacek-Larrondo, J. et al; Optical: NASA/STScI
Tuesday, December 25, 2012
HAPPY HOLIDAYS
A Cosmic Holiday Ornament, Hubble-Style
'Tis the season for holiday decorating and tree-trimming. Not to be left out, astronomers using NASA's Hubble Space Telescope have photographed a festive-looking nearby planetary nebula called NGC 5189. The intricate structure of this bright gaseous nebula resembles a glass-blown holiday ornament with a glowing ribbon entwined.
Planetary nebulae represent the final brief stage in the life of a medium-sized star like our sun. While consuming the last of the fuel in its core, the dying star expels a large portion of its outer envelope. This material then becomes heated by the radiation from the stellar remnant and radiates, producing glowing clouds of gas that can show complex structures, as the ejection of mass from the star is uneven in both time and direction.
A spectacular example of this beautiful complexity is seen in the bluish lobes of NGC 5189. Most of the nebula is knotty and filamentary in its structure. As a result of the mass-loss process, the planetary nebula has been created with two nested structures, tilted with respect to each other, that expand away from the center in different directions.
Image Credit: NASA/Hubble
Sunday, December 23, 2012
MOON-WATER
FROM: U.S. DOD/NASA
The Clementine spacecraft is launched aboard a Titan II missile from Vandenberg Air Force Base, Calif., in this Jan. 25, 1994, file photograph. The recent interpretation of data from the Clementine spacecraft mission, a joint Ballistic Missile Defense Organization/NASA venture, has revealed that deposits of ice could exist in permanently dark regions near the South Pole of the Moon. Initial estimates suggest that the ice deposit area is the size of small lake (60 to 120 thousand cubic meters), and that the lunar crater containing the ice deposit has a depth greater than the height of Mount Everest, and a rim circumference twice the size of Puerto Rico. The discovery of ice on the Moon has enormous implications for the potential return of humans to the Moon's surface and the establishment of a permanent lunar station. The lunar ice could be mined and dissociated into hydrogen and oxygen by electric power provided by solar panels or a nuclear generator, providing both breathable oxygen and potable water for the permanent station on the Moon. Hydrogen and oxygen are also prime components of rocket motor fuel and could potentially result in the establishment of a lunar filling station transport to or from the Moon more economical by at least a factor of ten. The Clementine spacecraft's primary military mission was to qualify lightweight sensor and camera technology for possible application for ballistic missile defense programs, but it also demonstrated a capability for low-cost, high-value space exploration missions. (Released)
The Clementine spacecraft is launched aboard a Titan II missile from Vandenberg Air Force Base, Calif., in this Jan. 25, 1994, file photograph. The recent interpretation of data from the Clementine spacecraft mission, a joint Ballistic Missile Defense Organization/NASA venture, has revealed that deposits of ice could exist in permanently dark regions near the South Pole of the Moon. Initial estimates suggest that the ice deposit area is the size of small lake (60 to 120 thousand cubic meters), and that the lunar crater containing the ice deposit has a depth greater than the height of Mount Everest, and a rim circumference twice the size of Puerto Rico. The discovery of ice on the Moon has enormous implications for the potential return of humans to the Moon's surface and the establishment of a permanent lunar station. The lunar ice could be mined and dissociated into hydrogen and oxygen by electric power provided by solar panels or a nuclear generator, providing both breathable oxygen and potable water for the permanent station on the Moon. Hydrogen and oxygen are also prime components of rocket motor fuel and could potentially result in the establishment of a lunar filling station transport to or from the Moon more economical by at least a factor of ten. The Clementine spacecraft's primary military mission was to qualify lightweight sensor and camera technology for possible application for ballistic missile defense programs, but it also demonstrated a capability for low-cost, high-value space exploration missions. (Released)
Saturday, December 22, 2012
GROUND SYSTEMS DEVELOPMENT AND OPERATIONS PROGRAM
FROM: NASA
GSDO: Exploration Begins Here
NASA's Ground Systems Development and Operations Program is developing the technologies and innovations to launch the next generation of rockets and spacecraft.
GSDO: Exploration Begins Here
NASA's Ground Systems Development and Operations Program is developing the technologies and innovations to launch the next generation of rockets and spacecraft.
Friday, December 21, 2012
Thursday, December 20, 2012
Wednesday, December 19, 2012
A NEW TRIO HEAD FOR THE INTERNATIONAL SPACE STATION
FROM: NASA
New Trio Launches to Join Expedition 34
The Soyuz TMA-07M spacecraft launched from the Baikonur Cosmodrome in Kazakhstan to the International Space Station at 7:12 a.m. EST on Wednesday, Dec. 19.
New Trio Launches to Join Expedition 34
The Soyuz TMA-07M spacecraft launched from the Baikonur Cosmodrome in Kazakhstan to the International Space Station at 7:12 a.m. EST on Wednesday, Dec. 19.
Monday, December 17, 2012
Sunday, December 16, 2012
LAUNCH DAY FOR EXPEDITION 29
FROM: NASA
Soyuz on the Launch Pad
The is seen on the launch pad during a snow storm the morning of the launch of Expedition 29 to the International Space Station at the Baikonur Cosmodrome in Kazakhstan, Monday, Nov. 14, 2011.
Saturday, December 15, 2012
SPHERES USE IN HUMAN EXPLORATION TELEROBOTICS TEST
NASA
ISS Update: SPHERES with Telerobotics Project Manager Terry Fong
NASA Public Affairs Officer Brandi Dean talks with Terry Fong, Telerobotics Project Manager, about how the Synchronized Position, Hold, Engage and Reorient Experimental Satellites, or SPHERES, are being used for a Human Exploration Telerobotics test.
ISS Update: SPHERES with Telerobotics Project Manager Terry Fong
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