Tethys [pronounced TEE-this; or TE-this; adjective: Tethyan] is a small moon 1,066 km (662 miles) in diameter that orbits 294,660 km (183,100 miles) from Saturn. This cold, airless and heavily scarred body is very similar to sister moons Dione and Rhea except that Tethys is not as heavily cratered as the other two. This may be because its proximity to Saturn causes more tidal warming, and that warming kept Tethys partially molten longer, erasing or dulling more of the early terrain.

Tethys’ density is 0.97 times that of liquid water, which suggests that Tethys is composed almost entirely of water ice plus a small amount of rock.

As with all but two of the major Saturnian moons, Tethys is tidally locked in phase with its parent planet — one side always faces toward Saturn. Likewise, Tethys has gravitationally locked two smaller moons into its own subsystem — Telesto and Calypso. Telesto is an irregular body 34 x 28 x 36 km (21 x 17 x 22 miles) that orbits 60 degrees ahead of Tethys. Calypso is an irregular body 34 x 22 x 22 km (21 x 11 x 11 miles) that orbits 60 degrees behind Tethys. These smaller moons are held in Lagrangian points (L4 and L5, respectively), where objects are stable with the larger controlling body. The fact that Tethys and other Saturnian moons have such objects implies that Lagrangian points might be stable for millions of years. This, in turn, implies that Lagrangian points around the Earth and the Moon might be more stable than previously thought to be in the past.

The vast expanse of the crater Odysseus spreads out below Cassini in this mosaic view of Saturn’s moon Tethys.

Tethys has a high reflectivity (or geometric albedo) of 1.229 in the visual range, again suggesting a composition largely of water ice, which would behave like rock in the Tethyan average temperature of -305 degrees Fahrenheit (-187 degrees Celsius). Many of the crater floors on Tethys are bright, which also suggest an abundance of water ice. Also contributing to the high reflectivity is that Tethys is bombarded by Saturn E-ring water-ice particles generated by geysers on Enceladus.

The Tethyan northern hemisphere is lighter colored and heavily reworked from ages of bombardment. For instance, near the prominent peaked crater Telemachus (Odysseus’ son in “The Odyssey”) are the remnants of Teiresias Crater (named for a famous soothsayer of ancient Greece). The ancient Teiresias impact site is so badly overprinted and eroded by impact weathering and degradation that only a circular pattern of hummocks remains to indicate the old crater rim.

Closer to the equator, the terrain is darker and has fewer craters. This less-dense cratering suggests past internal activity and resurfacing of the terrain.

Around the equator on its leading side, Tethys wears a band of slightly darker surface material. Scientists suspect the darkened region may represent and area of less contaminated ice with differently sized grains than the material at higher latitudes on either side of the band.

Tethys has two overpowering features, a giant impact crater and a great valley. Odysseus Crater (named for a Greek warrior king in Homer’s two great works, “The Iliad” and “The Odyssey”) dominates the Tethyan western hemisphere. Odysseus Crater is 400 km in-diameter (almost 250 miles). That diameter is nearly two-fifths of Tethys itself. Such an impact could have shattered a solid body, which suggests that the internal composition of Tethys was still partially molten. The crater’s rim and central peak have largely collapsed, leaving a shallow crater, and this also suggests a terrain that was elastic enough to change shape. The subdued features of Odysseus Crater are in contrast to the many steep cliffs found elsewhere on the moon, which again suggests that the ancient terrain was still elastic enough to change shape.

The second major feature, a valley called Ithaca Chasma (named for the country ruled by Odysseus), runs roughly from the Tethyan north pole to its south pole. It is 100 km wide, 3 to 5 km deep and extends 2000 km (62, 2 to 3, and 1200 miles, respectively). Ithaca Chasma may have been caused by expansion of internal liquid water as it froze into ice after the surface had already frozen. An alternate theory is that the impact that created the Odysseus Crater also generated forces that created Ithaca Chasma, especially since the chasm is on the opposite side of Tethys from the Odysseus Crater. The chasm and surrounding area are heavily cratered, indicating that it was formed long ago.

Tethys appeared as a tiny dot to astronomers until the Voyager (1 and 2) encounters in 1980 and 1981. The Voyager images showed the major impact crater and the great chasm. The Cassini spacecraft has added details including a great variety of colors at small scales suggesting a variety of materials not seen elsewhere.

Giovanni Cassini discovered Tethys on 21 March 1684.

Text Above Provided by U.S.A. N.A.S.A







“Some moons wouldn’t survive the collision. Tethys, one of Saturn’s larger moons at about 1000 kilometers in diameter, survived the collision, but sports today the expansive impact crater Odysseus. Sometimes called the Great Basin, Odysseus occurs on the leading hemisphere of Tethys and shows its great age by the relative amount of smaller craters that occur inside its towering walls.” apod.nasa.gov

“This cold, airless, and heavily scarred body is very similar to sister moons Dione and Rhea except that Tethys is not as heavily cratered as the other two.” [saturn.jpl.nasa.gov] “Tethys is more than twice the diameter of Enceldaus and also displays evidence of crustal deformation and resurfacing. however, its ridges, grooves, and smooth plains are not as extensive as those on Enceldaus. The two most striking features on the surface of Tethys are Odysseus, and impact crater 400 kilometers in diameter (about 40 percent the diameter of the satellite), and an enormous canyonland name Ithaca Chasma, which wraps at least three-quarters of the way around the globe.” (Tethys/Dione) “Both are unusual in that they have tiny companion satellites.” Source: The Compact NASA Atlas of the Solar System by Ronald Greeley and Raymond Batson

*The giant impact crater Odysseus and companion satellites are evidence of the Mimas cataclysmic collision into Enceldaus in its transformation to Tethys.

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