June 12 2007 Icy Moons (rev 46) |
June 12 2007 Icy Moons (rev 46) |
Jun 6 2007, 07:35 AM
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Senior Member Group: Members Posts: 1887 Joined: 20-November 04 From: Iowa Member No.: 110 |
Rev 46 description available at CICLOPS
http://ciclops.org/view.php?id=3245 Some highlights: Cassini will observe Mimas, the innermost of the mid-sized icy satellites of Saturn June 12, Cassini makes one of its closest passes of the small, inner satellite Atlas, at a distance of only 38,000 km (24,000 mi). With an average diameter of only 31 km (19 mi), Atlas is one of the smallest moons of Saturn. Atlas will only appear to be 120 pixels across (at the equator). However, these images may still provide important clues about the formation of one of the most distinguishing aspects of the tiny satellite: its equatorial bulge. The bulge is thought to have been created by material from Saturn’s A ring being deposited preferentially along the equator of the satellite. A number of observations are dedicated to observing some of Saturn's small moons, in order to refine scientists' estimates of their orbital paths. These sequences include observations of some of Saturn's outer satellites, such as Paaliaq, Hati, and S/2004 S13 I've seen a few of these small outer moons listed recently on the raw image page. They search tool only shows them from the last few orbits. Is this something new they are doing or have they been previously listed as Sky? |
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Jun 24 2007, 09:28 PM
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Member Group: Members Posts: 809 Joined: 11-March 04 Member No.: 56 |
I'm not sure if I got this right, but I gather that Atlas is shaped something like a spinning-top, with a broad disk shape in the center and two "horns" or mountains on the opposite poles.
If so, then there's an interesting process going on: Atlas is picking up ring particles, of various sizes, on the disk edge, but once accreted they find themselves gravitationally at the furthest point from Atlas' center of gravity; if the are large and massive enough so that they don't easily stick to neighboring particles, they will find themselves rolling (slowly) toward the tops of the "mountains", which paradoxically are gravitationally down. As a result, any large lumpy bits are going to gravitate toward the poles, leaving a smooth equator covered in smaller particles and ring-dust. Does that sound about right? |
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Lo-Fi Version | Time is now: 21st September 2024 - 04:53 AM |
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