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_Comet Shoemaker-Levy_

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Table of Contents

* _Comet Shoemaker-Levy 9 (This Page)_
+ [11]Introduction
+ [12]Views of Shoemaker-Levy 9
* _[13]Shoemaker-Levy 9 Impact_
* _[14]Shoemaker-Levy 9 Image Index_
* _[15]Hubble Press Release on the SL-9 Collision Results_
* _[16]Comet Tutorial_

Links to other Comet Shoemaker-Levy Home Pages

* _[17]Comet Shoemaker-Levy 9 Impact from JPL_
* _[18]Effelsberg Radio Observations of the Great Comet Crash_
* _[19]Comet Shoemake-Levy 9 page from SEDS_

Introduction

Comet Shoemaker-Levy 9 was the ninth short-periodic comet discovered
by Eugene and Carolyn Shoemaker and David Levy. It was first detected
on a photograph taken on the night of March 24, 1993, with the
0.4-meter Schmidt telescope on Palomar Mountain in California. The
magnitude of the comet's brightness was reported as 14, more than a
thousand times too faint to be seen with the naked eye. The existence
of this object was soon confirmed by James V. Scotti of the Spacewatch
program at the University of Arizona.

Through the observations and efforts of Brian G. Marsden and other
astronomers, the comet's orbit was demonstrated to be around Jupiter
and that it had made a very close approach to Jupiter on July 7, 1992.
During this close approach, the unequal Jupiter gravitational
attractions on the comet's near and far sides broke the fragile object
apart. On March 27, an image was taken with the 2.2-m telescope on
[20]Mauna Kea in Hawaii that showed as many as 17 separate sub-nuclei
strung out like pearls on a string 50 arc seconds long. An early image
taken by Scotti on March 30 is shown below.

[21][LINK] 
_Early Shoemaker/Levy 9 Image_

On July 1, 1993 an image was taken with the [22]Hubble Space Telescope
(HST) that clearly shows at least 15 individual fragments in one image
frame of the train.

[23][LINK] 
_Early HST Image_

Since it was not at all obvious where the center of mass of this new
comet lay, most observers were using the position of what appeared to
be the center of the train. This made an accurate orbit (or orbits)
difficult to determine; however, after numerous observations of the
comet, astronmers determined that the comet had passed within 96,000
kilometers (60,000 miles) of the center of Jupiter or 25,000
kilometers (16,000 miles) from the cloud tops during the July 8, 1992,
approach. They also determined that it would again pass within 25,000
kilometers (16,000 miles) of the center of Jupiter, on July 19, 1994.
This distance was less than the radius of Jupiter. In other words, the
comet, or at least parts of it, could very well hit Jupiter.

Shoemaker-Levy 9 had been in a rapidly changing orbit around Jupiter
for some time before this, probably for at least several decades. It
did not fragment during earlier approaches to Jupiter because these
were made at much greater distances than the 1992 approach. The
comet's previous approaches to Jupiter probably came no closer than 9
million kilometers (5.6 million miles).

By December 9 1993, the probability of impact for all the large
fragments of Shoemaker-Levy 9 was calculated to be greater than
99.99%. The fragments would hit over a period of several days,
centered on July 19, on the night side of Jupiter. Unfortunately, this
was the back side of Jupiter as viewed from Earth. The impact site
would be close to the limb of Jupiter, near 75° from the midnight
meridian and only a few degrees beyond the dark limb as seen from
Earth.

The disruption of a comet into multiple fragments is an unusual event,
the capture of a comet into an orbit about Jupiter is even more
unusual, and the collision of a large comet with a planet is an
extraordinary, millennial event.

Views of Shoemaker-Levy 9

[24][LINK] _HST 1993 Mosaic_
This high resolution image is a mosaic of images taken by the Hubble
Telescope on January 24-27, 1994. Twenty nuclei are visible with one
slightly outside of the field-of-view (to the right). Each nucleus has
its own coma and tail. The fourth nucleus from the left (the first
bright one) is apparently starting to separate into at least two
pieces. _(Courtesy NASA/JPL)_
[25][LINK] _HST Images_
These images were taken with the Hubble telescope's new camera's on
January 24-27, 1994. In the upper image, 20 nuclei are visible with
one slightly outside of the field-of-view (to the right). Each nucleus
has its own coma and tail. The fourth nucleus from the left (the first
bright one) is apparently starting to separate into at least two
pieces. The width and height of this image project to distances of
605,000 kilometers (376,000 miles) and 126,500 kilometers (78,600
miles), respectively, at the comet.

The lower left and right parts of the screen show the region near the
brightest nucleus at higher resolution. To the left is the new image
from the corrected camera, while the image to the right shows old data
from the aberrated camera. _(Courtesy NASA/JPL)_
[26][LINK] _Depictions of the Shoemaker-Levy 9 Collision_
In this series of depictions, comet Shoemaker-Levy 9 impacting Jupiter
is shown from three different perspectives: at left, from the
viewpoint of Earth; center, from the Voyager 2 spacecraft in the outer
reaches of the solar system; and, at right, from Jupiter's south pole.
For visual appeal, most of the large cometary fragments are shown
close to one another in this image. At the time of Jupiter impact, the
fragments will be separated from one another by several times the
distances shown. _(Courtesy NASA/JPL)_

Additional Shoemaker-Levy 9 Depictions

* [27]Viewpoint from the Earth.
* [28]Viewpoint from Voyager 2.
* [29]Viewpoint from Juipter's South Pole.

[30]HOME [31]Comet [32]Halley's Comet [33]Shoemaker-Levy 9 Impact

_Copyright © 1997-2001 by [34]Calvin J. Hamilton. All rights reserved._
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