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[10]Saturn 

_Saturn_

_It is difficult to say what is impossible, for the dream of yesterday
is the hope of today and reality of tomorrow.
- Robert Goddard_

Table of Contents
Saturn Introduction[11]Saturn Statistics
[12]Animations of Saturn
[13]Views of Saturn
[14]Saturn's Moon Summary
[15]References
[16]Saturn's Magnificant Rings[17]Rings of Saturn
[18]Historical Background of Saturn's Rings
Saturn's Moons
[19]Atlas, [20]Calypso, [21]Dione, [22]Enceladus, [23]Epimetheus,
[24]Helene, [25]Hyperion, [26]Iapetus, [27]Janus, [28]Mimas, [29]Pan,
[30]Pandora, [31]Phoebe, [32]Prometheus, [33]Rhea, [34]Telesto,
[35]Tethys, [36]Titan, [37]Possible New Satellites

Saturn Science
[38]Saturn Science Summary[39]Saturn Exploration Chronology[40]The
Cassini Mission[41]Saturn Image/Animation Gallery
Other Resources
[42]Saturn's Ring System

[43][LINK] 

Saturn is the sixth planet from the Sun and is the second largest in
the solar system with an equatorial diameter of 119,300 kilometers
(74,130 miles). Much of what is known about the planet is due to the
[44]Voyager explorations in 1980-81. Saturn is visibly flattened at
the poles, a result of the very fast rotation of the planet on its
axis. Its day is 10 hours, 39 minutes long, and it takes 29.5 Earth
years to revolve about the Sun. The atmosphere is primarily composed
of hydrogen with small amounts of helium and methane. Saturn is the
only planet less dense than water (about 30 percent less). In the
unlikely event that a large enough ocean could be found, Saturn would
float in it. Saturn's hazy yellow hue is marked by broad atmospheric
banding similar to, but fainter than, that found on [45]Jupiter.

The wind blows at high speeds on Saturn. Near the equator, it reaches
velocities of 500 meters a second (1,100 miles an hour). The wind
blows mostly in an easterly direction. The strongest winds are found
near the equator and velocity falls off uniformly at higher latitudes.
At latitudes greater than 35 degrees, winds alternate east and west as
latitude increases.

Saturn's [46]ring system makes the planet one of the most beautiful
objects in the solar system. The rings are split into a number of
different parts, which include the bright A and B rings and a fainter
C ring. The ring system has various gaps. The most notable gap is the
Cassini [kah-SEE-nee] Division, which separates the A and B rings.
[47]Giovanni Cassini discovered this division in 1675. The Encke
[EN-kee] Division, which splits the A Ring, is named after Johann
Encke, who discovered it in 1837. Space probes have shown that the
main rings are really made up of a large number of narrow ringlets.
The origin of the rings is obscure. It is thought that the rings may
have been formed from larger moons that were shattered by impacts of
comets and meteoroids. The ring composition is not known for certain,
but the rings do show a significant amount of water. They may be
composed of icebergs and/or snowballs from a few centimeters to a few
meters in size. Much of the elaborate structure of some of the rings
is due to the gravitational effects of nearby satellites. This
phenomenon is demonstrated by the relationship between the F-ring and
two small moons that _shepherd_ the ring material.

Radial, spoke-like features in the broad B-ring were also found by the
Voyagers. The features are believed to be composed of fine, dust-size
particles. The spokes were observed to form and dissipate in the
time-lapse images taken by the Voyagers. While electrostatic charging
may create spokes by levitating dust particles above the ring, the
exact cause of the formation of the spokes is not well understood.

Saturn has 18 named satellites and more than a dozen of newly reported
satellites that have been given provisional designations until they
are verified and named.

Saturn Statistics
Mass (kg) 5.688e+26
Mass (Earth = 1) 9.5181e+01
Equatorial radius (km) 60,268
Equatorial radius (Earth = 1) 9.4494e+00
Mean density (gm/cm^3) 0.69
Mean distance from the Sun (km) 1,429,400,000
Mean distance from the Sun (Earth = 1) 9.5388
Rotational period (hours) 10.233
Orbital period (years) 29.458
Mean orbital velocity (km/sec) 9.67
Orbital eccentricity 0.0560
Tilt of axis (degrees) 25.33
Orbital inclination (degrees) 2.488
Equatorial surface gravity (m/sec^2) 9.05
Equatorial escape velocity (km/sec) 35.49
Visual geometric albedo 0.47
Magnitude (Vo) 0.67
Mean cloud temperature -125°C
Atmospheric pressure (bars) 1.4
Atmospheric composition
Hydrogen
Helium
97%
3%

Animations of Saturn

* [48]Saturn Fly Around.
* [49]Saturn's spokes in rings.
* [50]60-HST exposures showing a storm in the atmosphere of Saturn.

Views of Saturn

[51]Saturn [52]Saturn With Rhea and Dione
NASA's [53]Voyager 2 took this photograph of Saturn on July 21, 1981,
when the spacecraft was 33.9 million kilometers (21 million miles)
from the planet. Two bright, presumably [54]convective cloud patterns
are visible in the mid-northern hemisphere and several dark spoke-like
features can be seen in the broad B-ring (left of planet). The moons,
[55]Rhea and [56]Dione, appear as blue dots to the south and southeast
of Saturn, respectively. Voyager 2 made its closest approach to Saturn
on August 25, 1981. _(Courtesy NASA/JPL)_
[57]Interior of Saturn [58]The Interior of Saturn
This picture illustrates the internal structure of Saturn. The outer
layer is primarily composed of molecular hydrogen. As we go deeper
where the presure reaches 100,000 bars, the gas starts to resemble a
hot liquid. When the hydrogen reaches a pressure of 1,000,000 bar,
hydrogen changes into a new state of metallic hydrogen. In this state
it resembles a molten metal. This metalic hydrogen state occurs at
about half of Saturn's radius. Below this is a layer dominated by ice
where "ice" denotes a soupy liquid mixture of water, methane, and
ammonia under high temperatures and pressures. Finally at the center
is a rocky or rocky-ice core. _(Copyright 2002 Calvin J. Hamilton)_
[59]Saturn, Tethys, Dione [60]Saturn With Tethys and Dione
Saturn and two of its moons, [61]Tethys (above) and [62]Dione, were
photographed by Voyager 1 on November 3, 1980, from a distance of 13
million kilometers (8 million miles). The shadows of Saturn's three
bright rings and Tethys are cast onto the cloud tops. The limb of the
planet can be seen easily through the 3,500-kilometer-wide (2,170
mile) Cassini Division, which separates ring A from ring B. The view
through the much narrower Encke Division, near the outer edge of ring
A is less clear. Beyond the Encke Division (at left) is the faintest
of Saturn's three bright rings, the C-ring or crepe ring, barely
visible against the planet. _(Courtesy NASA/JPL)_
[63]Telescope Image of Saturn [64]Nordic Optical Telescope
This image of Saturn was taken with the 2.6 meter [65]Nordic Optical
Telescope, located at La Palma, Canary Islands. (© Copyright Nordic
Optical Telescope Scientific Association -- NOTSA)
[66]Rings Edge On [67]Saturn's Rings Edge-On
In one of nature's most dramatic examples of "now-you see-them,
now-you-don't," NASA's Hubble Space Telescope captured Saturn on May
22, 1995, as the planet's magnificent ring system turned edge-on. This
ring-plane crossing occurs approximately every 15 years when the Earth
passes through Saturn's ring plane.

The rings do not disappear completely because the edge of the rings
reflects sunlight. The dark band across the middle of Saturn is the
shadow of the rings cast on the planet (the Sun is almost 3 degrees
above the ring plane.) The bright stripe directly above the ring
shadow is caused by sunlight reflected off the rings onto Saturn's
atmosphere. Two of Saturn's icy moons are visible as tiny starlike
objects in or near the ring plane.
[68]Storm on Saturn [69]Storm on Saturn
This image, taken by the Hubble Space Telescope, shows a rare storm
that appears as a white arrowhead-shaped feature near the planet's
equator. The storm is generated by an upwelling of warmer air, similar
to a terrestrial thunderhead. The east-west extent of this storm is
equal to the diameter of the Earth (about 12,700 kilometers or 7,900
miles). The Hubble images are sharp enough to reveal that Saturn's
prevailing winds shape a dark "wedge" that eats into the western
(left) side of the bright central cloud. The planet's strongest
eastward winds, clocked at 1,600 kilometers (1,000 miles) per hour
based on Voyager spacecraft images taken in 1980-81, are at the
latitude of the wedge.

To the north of this arrowhead-shaped feature, the winds decrease so
that the storm center is moving eastward relative to the local flow.
The clouds expanding north of the storm are swept westward by the
winds at higher latitudes. The strong winds near the latitude of the
dark wedge blow over the northern part of the storm, creating a
secondary disturbance that generates the faint white clouds to the
east (right) of the storm center. The storm's white clouds are ammonia
ice crystals that form when an upward flow of warmer gases shoves its
way through Saturn's frigid cloud tops.
[70]Aurora on Saturn [71]HST Views Aurora on Saturn
The top image shows the first image ever taken of bright aurorae at
Saturn's northern and southern poles, as seen in far ultraviolet light
by the Hubble Space Telescope. Hubble resolves a luminous, circular
band centered on the north pole, where an enormous auroral curtain
rises as far as 2,000 kilometers (1,200 miles) above the cloudtops.
This curtain changed rapidly in brightness and extent over the two
hour period of HST observations.

The aurora is produced as trapped charged particles precipitating from
the magnetosphere collide with atmospheric gases. As a result of the
bombardment, Saturn's gases glow at far-ultraviolet wavelengths
(110-160 nanometers). These wavelengths are absorbed by the Earth's
atmosphere, and can only be observed from space-based telescopes.

For comparison, the bottom image is a visible-light color composite of
Saturn as seen by Hubble on December 1, 1994. Unlike the ultraviolet
image, Saturn's familiar atmospheric belts and zones are clearly seen.
The lower cloud deck is not visible at UV wavelengths because sunlight
is reflected from higher in the atmosphere.
[72]Last View of Saturn [73]Last View of Saturn
Two days after its encounter with Saturn, [74]Voyager 1 looked back on
the planet from a distance of more than 5.0 million kilometers (3.0
million miles). This view of Saturn has never been seen by an earth
based telescope, since the earth is so close to the Sun only the
sunlit face of Saturn can be seen. _(Copyright © 2002 Calvin J.
Hamilton)_
[75]Rings of Saturn [76]False Color Image of Saturn's Rings
Possible variations in chemical composition from one part of Saturn's
ring system to another are visible in this Voyager 2 picture as subtle
color variations that can be recorded with special computer-processing
techniques. This highly enhanced color view was assembled from clear,
orange and ultraviolet frames obtained August 17, 1981 from a distance
of 8.9 million kilometers (5.5 million miles). In addition to the
previously known blue color of the C-ring and the Cassini Division,
the picture shows additional color differences between the inner
B-ring and and outer region (where the spokes form) and between these
and the A-ring. _(Courtesy NASA/JPL)_
[77]Saturn System [78]The Saturn System
This picture of the Saturnian system was prepared from an assemblage
of images taken by the Voyager 1 spacecraft during its Saturn
encounter in November 1980. This view shows [79]Dione in the
forefront, Saturn rising behind, [80]Epimetheus (top-left) and
[81]Rhea just to the left of Saturn's rings. To the right and below
Saturn's rings are [82]Enceladus, [83]Mimas, [84]Tethys, and
[85]Iapetus (bottom-right). The cloud covered [86]Titan is at the
top-right. _(Copyright Calvin J. Hamilton)_

Saturn's Moon Summary

Saturn has 18 officially recognized and named satellites. In addition,
there are other [87]unconfirmed satellites. One circles in the orbit
of Dione, a second is located between the orbits of Tethys and Dione,
and a third is located between Dione and Rhea. The unconfirmed
satellites were found in Voyager photographs, but were not confirmed
by more than one sighting. Recently, the Hubble Space Telescope imaged
four objects that might be new moons.

Several generalizations can be made about the satellites of Saturn.
Only [88]Titan has an appreciable atmosphere. Most of the satellites
have a [89]synchronous rotation. The exceptions are [90]Hyperion,
which has a chaotic orbit, and [91]Phoebe. Saturn has a regular system
of satellites. That is, the satellites have nearly circular orbits and
lie in the equatorial plane. The two exceptions are [92]Iapetus and
[93]Phoebe. All of the satellites have a density of < 2 gm/cm3. This
indicates they are composed of 30 to 40% rock and 60 to 70% water ice.
Most of the satellites reflect 60 to 90% of the light that strikes
them. The outer four satellites reflect less than this and [94]Phoebe
reflects only 2% of the light that strikes it.

The following table summarizes the radius, mass, distance from the
planet center, discoverer and the date of discovery of each of the
confirmed satellites of Saturn:

Moon #   Radius (km)   Mass (kg)   Distance (km)   Discoverer   Date

Tethys III   530       7.55e+20    294,660         G. Cassini 1684
Dione IV     560       1.05e+21    377,400         G. Cassini 1684
Rhea V       765       2.49e+21    527,040         G. Cassini 1672
Titan VI   2,575       1.35e+23  1,221,850         C. Huygens 1655

Iapetus VIII 730       1.88e+21  3,561,300         G. Cassini 1671
Mimas I      196       3.80e+19    185,520         W. Herschel 1789
Enceladus II 250       8.40e+19    238,020         W. Herschel 1789
Hyperion 205x130x110   1.77e+19  1,481,000         W. Bond 1848

Phoebe IX    110       4.0e+18  12,952,000         W. Pickering 1898

[99]Epimetheus XI 72x54x49 5.6e+17 151,422 R. Walker 1966
[100]Janus X 98x96x75 2.01e+18 151,472 A. Dollfus 1966
Pan XVIII    9.655             ?     133,583       M. Showalter 1990
[96]Atlas XV 20x15 ? 137,640 R. Terrile 1980
[97]Prometheus XVI 72.5x42.5x32.5 2.7e+17 139,350 S. Collins 1980
[98]Pandora XVII 57x42x31 2.2e+17 141,700 S. Collins 1980
[106]Telesto XIII 17x14x13 ? 294,660 B. Smith 1980
[107]Calypso XIV 17x11x11 ? 294,660 B. Smith 1980
[109]Helene XII 18x16x15 ? 377,400 Laques-Lecacheux 1980

S/2000 S5   7 ? 11,365,000 B. Gladman 2000
S/2000 S6   5 ? 11,440,000 J.J. Kavelaars, B. Gladman 2000
S/2000 S2   9.5 ? 15,199,000 B. Gladman 2000
S/2000 S8   3.2 ? 15,645,000 J.J. Kavelaars, B. Gladman 2000
S/2000 S11   13 ? 16,392,000 M. Holman, T.B. Spahr 2000
S/2000 S10   4.3 ? 17,611,000 J.J. Kavelaars, B. Gladman 2000
S/2000 S3   16 ? 18,160,000 B. Gladman, J.J. Kavelaars 2000
S/2000 S4   6.5 ? 18,239,000 J.J. Kavelaars, B. Gladman 2000
S/2000 S9   2.8 ? 18,709,000 B. Gladman, J.J. Kavelaars 2000
S/2000 S12   2.8 ? 19.470,000 B. Gladman, J.J. Kavelaars 2000
S/2000 S7   2.8 ? 20,470,000 B. Gladman, J.J. Kavelaars 2000
S/2000 S1   8 ? 23,096,000 B. Gladman 2000
[118]Possible New Satellites of Saturn

References

Thomas, P., J. Veverka, D. Morrison, M. Davies. and T. V. Johnson.
"Saturn's Small Satellites: Voyager Imaging Results." _Journal of
Geophysical Research_, November 1, 1983, 8743-8754.

Soderblom, Laurence A. and Torrence V. Johnson. "The Moons of Saturn."
_Scientific American_, January 1982.

[119]HOME [120]Return to Jupiter [121]Voyage to Uranus

_Copyright © 1997-2002 by [122]Calvin J. Hamilton. All rights
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