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| This artist's concept shows NASA's Dawn spacecraft heading toward the dwarf planet Ceres. |
NASA's Dawn spacecraft has entered an approach phase in which it will
continue to close in on Ceres, a Texas-sized dwarf planet never before
visited by a spacecraft. Dawn launched in 2007 and is scheduled to enter
Ceres orbit in March 2015.
Dawn recently emerged from solar conjunction, in which the spacecraft
is on the opposite side of the sun, limiting communication with
antennas on Earth. Now that Dawn can reliably communicate with Earth
again, mission controllers have programmed the maneuvers necessary for
the next stage of the rendezvous, which they label the Ceres approach
phase. Dawn is currently 400,000 miles (640,000 kilometers) from Ceres,
approaching it at around 450 miles per hour (725 kilometers per hour).
The spacecraft's arrival at Ceres will mark the first time that a
spacecraft has ever orbited two solar system targets. Dawn previously
explored the protoplanet Vesta for 14 months, from 2011 to 2012,
capturing detailed images and data about that body.
"Ceres is almost a complete mystery to us," said Christopher Russell,
principal investigator for the Dawn mission, based at the University of
California, Los Angeles. "Ceres, unlike Vesta, has no meteorites linked
to it to help reveal its secrets. All we can predict with confidence is
that we will be surprised."
The two planetary bodies are thought to be different in a few
important ways. Ceres may have formed later than Vesta, and with a
cooler interior. Current evidence suggests that Vesta only retained a
small amount of water because it formed earlier, when radioactive
material was more abundant, which would have produced more heat. Ceres,
in contrast, has a thick ice mantle and may even have an ocean beneath
its icy crust.
Ceres, with an average diameter of 590 miles (950 kilometers), is
also the largest body in the asteroid belt, the strip of solar system
real estate between Mars and Jupiter. By comparison, Vesta has an
average diameter of 326 miles (525 kilometers), and is the second most
massive body in the belt.
The spacecraft uses ion propulsion to traverse space far more
efficiently than if it used chemical propulsion. In an ion propulsion
engine, an electrical charge is applied to xenon gas, and charged metal
grids accelerate the xenon particles out of the thruster. These
particles push back on the thruster as they exit, creating a reaction
force that propels the spacecraft. Dawn has now completed five years of
accumulated thrust time, far more than any other spacecraft.
"Orbiting both Vesta and Ceres would be truly impossible with
conventional propulsion. Thanks to ion propulsion, we're about to make
history as the first spaceship ever to orbit two unexplored alien
worlds," said Marc Rayman, Dawn's chief engineer and mission director,
based at NASA's Jet Propulsion Laboratory in Pasadena, California.
The next couple of months promise continually improving views of
Ceres, prior to Dawn's arrival. By the end of January, the spacecraft's
images and other data will be the best ever taken of the dwarf planet.
The Dawn mission to Vesta and Ceres is managed by JPL, a division of
the California Institute of Technology in Pasadena, for NASA's Science
Mission Directorate, Washington. UCLA is responsible for overall Dawn
mission science.
More information about Dawn: http://dawn jpl nasa.gov
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