CICLOPS: Cassini Imaging Central Laboratory for OPerationS

Soft Collision
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Prometheus slowly collides with the diffuse inner edge of Saturnís F ring in this movie sequence of Cassini images. The oblong moon pulls a streamer of material from the ring and leaves behind a dark channel.

Once during its 14.7-hour orbit of Saturn, Prometheus (86 kilometers, 53 miles across) reaches the point in its elliptical path, called apoapse, where it is farthest away from Saturn and closest to the F ring. At this point, Prometheusí gravity is just strong enough to draw a "streamer" of material out of the core region of the F ring.

Initially the dust-sized material drawn away from the ring appears to form a streamer pointing ahead of Prometheus in its orbit. (All orbital motion is towards the right in the movie.) Over time, the streamer falls increasingly farther behind Prometheus because material in the F ring is orbiting slower than the moon. The streamer gets longer and a darker "channel" starts to be seen (to the left of the streamer in the movie).

The creation of such streamers and channels occurs in a cycle that repeats each Prometheus orbit: when Prometheus again reaches apoapse, it draws another streamer of material from the F ring. But since Prometheus orbits faster than the material in the ring, this new streamer is pulled from a different location in the ring about 3.2 degrees (in longitude) ahead of the previous one.

In this way, a whole series of streamer-channels is created along the F ring. In some observations, 10 to 15 streamer-channels can easily be seen in the F ring at one time (see PIA07712). Eventually, a streamer-channel disappears as shearing forces (i.e., Keplerian shear) act to disperse the constituent dust particles.

The movie shows just under half of a complete streamer-channel cycle. The dark frames in the movie represent the period during which Prometheus and the F ring pass through Saturnís shadow.

The images in the movie were acquired by the Cassini spacecraft narrow-angle camera on Nov. 23 and 24, 2006. The movie sequence consists of 72 clear spectral filter images taken every 10.5 minutes over a period of about 12.5 hours.

The original images were cropped to show only the region around Prometheus and the nearby portion of the F ring. The movie covers the region between 138,000 and 142,000 kilometers (86,000 and 88,000 miles) radially from Saturn and 1 degree in longitude from Prometheus on each side. Each frame was reprojected such that the vertical axis represents distance from Saturn and the horizontal axis represents longitude around Saturn. Image scale is 10 kilometers (6 miles) per pixel in the vertical direction; the images cover 0.005 degrees of longitude in the horizontal direction. Because of the reprojection, the F ring appears straight, rather than slightly curved, as it otherwise would.

Since the F ring has an elliptical shape, its radial distance from Saturn varies by about 1,000 kilometers (620 miles) around the ring. This accounts for the apparent vertical movement of the ring over the course of the movie. Only a very small part of the ring appears in each of the reprojected frames, so the difference in the ringís radial distance from left to right across any single frame is small enough as to be effectively unnoticeable.

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Cassini-Huygens mission for NASA's Science Mission Directorate, Washington, D.C. The imaging team consists of scientists from the US, England, France, and Germany. The imaging operations center and team lead (Dr. C. Porco) are based at the Space Science Institute in Boulder, Colo.

For more information about the Cassini-Huygens mission, visit http://saturn.jpl.nasa.gov and the Cassini imaging team home page, http://ciclops.org.

Credit: NASA/JPL/Space Science Institute
Released: October 15, 2007 (PIA 08397)
Image/Caption Information
  Soft Collision
PIA 08397

Avg Rating: 9.06/10

Movie (400x400):
MPEG 305 KB
Quicktime 2.1 MB

 



Alliance Member Comments
hank (Aug 14, 2009 at 6:13 PM):
Question -- has anyone done some sort of animation to convey to people how this process of streamers works?

I'm assuming gravity "propagates at the speed of light" (or however you can explain it in poetry -- space bends at the speed of light?) and the effect of the gravity of the moving moon is propagating across the loose material of the ring, while both moon and ring are moving.

Is that what we're seeing? the change in the force of gravity moving across the ring material showing up as the sideways motion of the material, and that effect moving sideways with the relative motion of the moon while the moon approaches then recedes?

I'm thinking of something maybe like the maps you can get for sailors showing the wind strength and direction,
http://sfports.wr.usgs.gov/cgi-bin/wind/windbin.cgi
except with the arrows of course showing the vector toward the moon and the strength of the vector.

Or, actually, just showing a scale on the picture calibrated in light-seconds would be really interesting as a way to begin.

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