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Big Asteroid Tumbles Harmlessly Past Earth
Fuzzy black and white image of asteroid.
One of the Goldstone radar images obtained during the asteroid Toutatis's Dec. 2012 flyby. Click on image for more.

Dec. 12, 2012: This week, NASA radars are tracking a large asteroid as it passes by Earth, and obtaining images of unprecedented clarity.

"There's no danger of a collision," says Lance Benner of NASA's Near Earth Object Program. "At closest approach on Dec. 12th, asteroid 4179 Toutatis will be 7 million km away or 18 times farther than the Moon."

Color image of massive radar dish.
NASA's 70-meter diameter Goldstone radar.

Asteroid Toutatis is well known to astronomers; it passes by Earth's orbit every 4 years. Measuring 4.5 km in length, it is one of the largest known potentially hazardous asteroids (PHAs), and its orbit is inclined less than half-a-degree from Earth's. No other kilometer-sized PHA moves around the Sun in an orbit so nearly coplanar with our own. This makes it an important target for radar studies.

NASA's Goldstone radar in the Mojave Desert will be pinging the space rock every day from Dec. 4th through 22nd. The echoes highlight the asteroid's topography and improve the precision with which researchers know the asteroid's orbit.

It's probably no coincidence that the tumbling asteroid is elongated and lumpy.

"Toutatis appears to have a complicated internal structure," says radar team member Michael Busch of the National Radio Astronomy Observatory. "Our radar measurements are consistent with the asteroid's little lobe being ~15% denser than the big lobe; and they indicate 20% to 30% over-dense cores inside the two lobes."

This raises the interesting possibility that asteroid Toutatis is actually a mash up of smaller space rocks. "Toutatis could be re-accumulated debris from an asteroid-asteroid collision in the main belt," he says. The new observations will help test this idea.

Busch points out that the upgraded Goldstone imaging system will produce data with a resolution of 3.75 meters per pixel. "We'll be putting hundreds of thousands of pixels across the asteroid's surface."

What will so much resolution reveal? Stay tuned for updates from Science@NASA.

Author: Dr. Tony Phillips| Production editor: Dr. Tony Phillips | Credit: Science@NASA

Last Updated: 12 December 2012


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