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Study: Saturn's rings are dense clumps

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Author Topic: Study: Saturn's rings are dense clumps  (Read 56 times)
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« on: May 25, 2007, 01:59:32 am »

Study: Saturn's rings are dense clumps
POSTED: 9:31 a.m. EDT, May 24, 2007
Story Highlights• Saturn's rings are clumpy and may be much denser than previously thought
• Particles in Saturn's B ring are constantly colliding, which surprised scientists
• Gravitational attraction of ring particles to each other creates the clumps
• Measurements taken from the Cassini spacecraft

Colors in this image indicate the orientation of clumps, and brightness indicates the density of ring particles.

WASHINGTON (Reuters) -- Saturn's rings may look smooth and even when viewed through a telescope but they are in fact made up of clumps of particles and may be much denser than realized, scientists said on Tuesday.

Measurements taken from the joint NASA, Italian and European Space Agency Cassini spacecraft show that the particles in Saturn's B ring are constantly colliding, which surprised scientists.

"The rings are different from the picture we had in our minds," said Larry Esposito of the University of Colorado at Boulder, who led the study done using ultraviolet imaging.

"We originally thought we would see a uniform cloud of particles. Instead we find that the particles are clumped together with empty spaces in between."

That means scientists have underestimated the mass of Saturn's rings. They may be two to three times denser than previous estimates, the researchers said.

Physicist Josh Colwell of the University of Central Florida in Orlando said the Cassini instrument used a time-honored method of measuring far-away objects -- by watching them pass in front of stars.

"By studying the brightness of stars as the rings pass in front of them, we are able to map the ring structure in 3-D and learn more about the shape, spacing and orientation of clusters of particles," Colwell said in a statement.

Writing in the journal Icarus, the researchers said the gravitational attraction of ring particles to each other creates clumps, or "self-gravity wakes."

If the clumps were farther from Saturn, they might aggregate even more to make a moon but because they are so close to the massive planet, they get stretched apart.

Copyright 2007 Reuters. All rights reserved.This material may not be published, broadcast, rewritten, or redistributed.
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