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{{dambigbox|Jupiter (planet)|Jupiter}}
'''Jupiter''' is the fifth [[planet]] from the [[Sun]] and the largest in the [[Solar system]]. It is a [[gas giant]] (also known as the Jovian planet).
'''Jupiter''' is the fifth [[planet]] from the [[Sun]] and the largest in the [[Solar system]]. It is a [[gas giant]] (also known as the Jovian planet).
{{Image|Jupiter NASA-JPL.jpg|right|350px|color-enhanced image of Jupiter taken by Voyager 1 March 1979}}
{{Image|Jupiter NASA-JPL.jpg|right|350px|Color-enhanced image of Jupiter taken by Voyager 1 March 1979}}
==Parameters for classification as a planet==
==Parameters for classification as a planet==
Jupiter is classified as a planet by the International Astronomical Union for meeting the following criteria:<ref>[http://www.nasa.gov/vision/universe/solarsystem/planetsf-20060824.html Honey, I Shrunk the Solar System] NASA. “The International Astronomical Union has decided that, to be called a planet, an object must have three traits. It must orbit the sun, be massive enough that its own gravity pulls it into a nearly round shape, and be dominant enough to clear away objects in its neighborhood.”</ref>
Jupiter is classified as a planet by the International Astronomical Union for meeting the following criteria:<ref>[http://www.nasa.gov/vision/universe/solarsystem/planetsf-20060824.html Honey, I Shrunk the Solar System] NASA. “The International Astronomical Union has decided that, to be called a planet, an object must have three traits. It must orbit the sun, be massive enough that its own gravity pulls it into a nearly round shape, and be dominant enough to clear away objects in its neighborhood.”</ref>
*Orbits the sun;
*Orbits the Sun;
*Has mass sufficient for its gravity to form a nearly round shape;
*Has mass sufficient for its gravity to form a nearly round shape;
*Has mass sufficient for gravity to clear a path in its orbit.
*Has mass sufficient for gravity to clear a path in its orbit.


==Physical characteristics==
==Physical characteristics==
Jupiter is a little more than five times further away from the Sun than Earth (5.2 AU) and is the most massive of the planets with a total mass of about 318 times that of Earth (318 Earth masses). Its total mass is about 2.5 times all the other planets combined.
Jupiter is a little more than five times further away from the Sun than Earth (5.2 AU) and is the most massive of the planets with a total mass of about 318 times that of Earth (318 Earth masses). Its total mass is about 2.5 times all the other planets combined.  See [[Benchmark_quantities#Mass|Benchmark quantities]] for more perspective about Jupiter's mass.
*Equatorial Radius: 71,492 km
*Equatorial Radius: 71,492 km
*Volume: 1.4255 X10e15 km^3
*Volume: 1.4255 X10e15 km^3
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It is composed largely of [[hydrogen]] and [[helium]].  Jupiter's strong internal heat creates a number of semi-permanent features in its atmosphere, such as cloud bands and the Great Red Spot.
It is composed largely of [[hydrogen]] and [[helium]].  Jupiter's strong internal heat creates a number of semi-permanent features in its atmosphere, such as cloud bands and the Great Red Spot.
==Great Red Spot==
==Great Red Spot==
{{Image|Great Red Spot NASA JPL.jpg|right|350px|colour image of Jupiter's Great Spot taken February 25, 1979, when Voyager 1 was 9.2 million km (5.7 million mi) from Jupiter}}
{{Image|Great Red Spot NASA JPL.jpg|right|350px|Colour image of Jupiter's Great Spot taken February 25, 1979, when Voyager 1 was 9.2 million km (5.7 million mi) from Jupiter}}
Jupiter's Great Red Spot is believed to be a giant hurricane rotating within the planet clouds. The first recorded observation was made by Italian-French astronomer Jean-Dominique Cassini in 1655. Three hundred years later it is still active. The spot is a cold, high-pressure area, 2 to 3 times the diameter of Earth. Its outer edges make a complete rotation in a counter clockwise motion about once every six days.<ref>[http://antwrp.gsfc.nasa.gov/apod/ap960802.html Galileo, Cassini, and the Great Red Spot] NASA </ref>
Jupiter's Great Red Spot is believed to be a giant hurricane rotating within the planet clouds. The first recorded observation was made by Italian-French astronomer Jean-Dominique Cassini in 1655. Three hundred years later it is still active. The spot is a cold, high-pressure area, 2 to 3 times the diameter of Earth. Its outer edges make a complete rotation in a counter clockwise motion about once every six days.<ref>[http://antwrp.gsfc.nasa.gov/apod/ap960802.html Galileo, Cassini, and the Great Red Spot] NASA </ref>


The red spot rises about 8 km above the surrounding clouds. Its red colour is a mystery but current theories posit that it may be caused by material dredged up from the surface of the planet.<ref name=NASAOvalBA>[http://science.nasa.gov/headlines/y2006/02mar_redjr.htm Jupiter's new red spot] NASA</ref>
The red spot rises about 8 km above the surrounding clouds. Its red colour is a mystery but current theories posit that it may be caused by material dredged up from below the cloud tops.<ref name=NASAOvalBA>[http://science.nasa.gov/headlines/y2006/02mar_redjr.htm Jupiter's new red spot] NASA</ref>


===Oval BA===
===Oval BA===
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==Natural satellites==
==Natural satellites==
Jupiter has sixty-three satellites. The four largest are '''Ganymede''', '''Callisto''', '''Io''', and '''Europa'''. They show similarities to the terrestrial planets, such as volcanism and internal heating.<ref>{{cite web|title= Geology of the Icy Galilean Satellites: A Framework for Compositional Studies|author=Pappalardo, R T|work=Brown University|year=1999|url=http://www.agu.org/cgi-bin/SFgate/SFgate?&listenv=table&multiple=1&range=1&directget=1&application=fm99&database=%2Fdata%2Fepubs%2Fwais%2Findexes%2Ffm99%2Ffm99&maxhits=200&=%22P11C-10%22|accessdate= 2006-01-16 }}</ref> Ganymede is the largest satellite in the Solar System, and is larger than Mercury.
Jupiter has 63 satellites, of which 50 have been given official names.  Most of the recently discovered moons orbit Jupiter in a retrograde direction, which suggests that they are captured objects, not native to the Jovian satellite system.<ref>http://burro.astr.cwru.edu/stu/jupiter_moons.html</ref>  The four largest are Ganymede, Callisto, Io and Europa. They show similarities to the terrestrial planets, such as volcanism and internal heating.<ref>{{cite web|title= Geology of the Icy Galilean Satellites: A Framework for Compositional Studies|author=Pappalardo, R T|work=Brown University|year=1999|url=http://www.agu.org/cgi-bin/SFgate/SFgate?&listenv=table&multiple=1&range=1&directget=1&application=fm99&database=%2Fdata%2Fepubs%2Fwais%2Findexes%2Ffm99%2Ffm99&maxhits=200&=%22P11C-10%22|accessdate= 2006-01-16 }}</ref> Ganymede is the largest satellite in the Solar System, and is larger than Mercury.


Ganymede, Callisto, Io, and Europa have an important place in the history of science. At the time they were discovered in 1610 by [[Galileo Galilei]] (using a telescope of his own design), [[Ptolemy|Ptolemy]]’s geocentric (Earth-centered) view of the universe prevailed. Then, [[Johannes Kepler]] confirmed the observations a short time later.
Ganymede, Callisto, Io, and Europa have an important place in the history of science. At the time they were discovered in 1610 by [[Galileo Galilei]] (using a telescope of his own design), [[Ptolemy|Ptolemy]]’s geocentric (Earth-centered) view of the universe prevailed. Then, [[Johannes Kepler]] confirmed the observations a short time later.
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Since these were the first objects observed in orbit around another celestial body and not in orbit around the Earth, the observations were the first direct evidence for the [[Nicolaus Copernicus|Copernican model]] of the cosmos and a direct contradiction of the Ptolemeic model which had prevailed from the second century A.D.
Since these were the first objects observed in orbit around another celestial body and not in orbit around the Earth, the observations were the first direct evidence for the [[Nicolaus Copernicus|Copernican model]] of the cosmos and a direct contradiction of the Ptolemeic model which had prevailed from the second century A.D.


Named by Galileo the '''Medician Stars''' after his benefactor '''Cosimo Medici II''', they are collectively referred to as the '''Galiean satellites''' (after their discoverer Galileo)<ref>John Gribbin (2002). Science: A History. London: Allen Lane The Penguin Press.</ref>
Named by Galileo the Medician Stars after his benefactor Cosimo Medici II, they are collectively referred to as the Galiean satellites (after their discoverer Galileo).<ref>John Gribbin (2002). Science: A History. London: Allen Lane The Penguin Press.</ref>


==References==
==References==

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This editable Main Article is under development and subject to a disclaimer.
This article is about Jupiter (planet). For other uses of the term Jupiter, please see Jupiter (disambiguation).

Jupiter is the fifth planet from the Sun and the largest in the Solar system. It is a gas giant (also known as the Jovian planet).

Color-enhanced image of Jupiter taken by Voyager 1 March 1979

Parameters for classification as a planet

Jupiter is classified as a planet by the International Astronomical Union for meeting the following criteria:[1]

  • Orbits the Sun;
  • Has mass sufficient for its gravity to form a nearly round shape;
  • Has mass sufficient for gravity to clear a path in its orbit.

Physical characteristics

Jupiter is a little more than five times further away from the Sun than Earth (5.2 AU) and is the most massive of the planets with a total mass of about 318 times that of Earth (318 Earth masses). Its total mass is about 2.5 times all the other planets combined. See Benchmark quantities for more perspective about Jupiter's mass.

  • Equatorial Radius: 71,492 km
  • Volume: 1.4255 X10e15 km^3
  • Mass: 1.8987 X10e27 kg[2]

It is composed largely of hydrogen and helium. Jupiter's strong internal heat creates a number of semi-permanent features in its atmosphere, such as cloud bands and the Great Red Spot.

Great Red Spot

Colour image of Jupiter's Great Spot taken February 25, 1979, when Voyager 1 was 9.2 million km (5.7 million mi) from Jupiter

Jupiter's Great Red Spot is believed to be a giant hurricane rotating within the planet clouds. The first recorded observation was made by Italian-French astronomer Jean-Dominique Cassini in 1655. Three hundred years later it is still active. The spot is a cold, high-pressure area, 2 to 3 times the diameter of Earth. Its outer edges make a complete rotation in a counter clockwise motion about once every six days.[3]

The red spot rises about 8 km above the surrounding clouds. Its red colour is a mystery but current theories posit that it may be caused by material dredged up from below the cloud tops.[4]

Oval BA

Jupiter shows a number of other storms that are much smaller than the Great Red Spot. However, in June of 2000, a number of these smaller storms were seen to coalesce and form a larger storm center. The storm, labelled Oval BA (aka Red Spot Jr.) has since developed a reddish colour and looks very much like the Great Red Spot though much smaller.[4]

Rotational characteristics

Jupiter has a rotational period (a complete rotation on its axis) of 9.842 hours and a polar tilt of 3°.[5]

Orbital characteristics

Jupiter has an orbital period (sidereal year) of 11.68 earth years. It has an average distance from the Sun of 778,412,020 km.[6] At its closest approach to the Sun (perihelion) it is nearly 5 times the distance of the Earth from the Sun (4.95 AU). At its furthest distance from the Sun (aphelion) it is 5.45 AU from the Sun.[5]

Natural satellites

Jupiter has 63 satellites, of which 50 have been given official names. Most of the recently discovered moons orbit Jupiter in a retrograde direction, which suggests that they are captured objects, not native to the Jovian satellite system.[7] The four largest are Ganymede, Callisto, Io and Europa. They show similarities to the terrestrial planets, such as volcanism and internal heating.[8] Ganymede is the largest satellite in the Solar System, and is larger than Mercury.

Ganymede, Callisto, Io, and Europa have an important place in the history of science. At the time they were discovered in 1610 by Galileo Galilei (using a telescope of his own design), Ptolemy’s geocentric (Earth-centered) view of the universe prevailed. Then, Johannes Kepler confirmed the observations a short time later.

Since these were the first objects observed in orbit around another celestial body and not in orbit around the Earth, the observations were the first direct evidence for the Copernican model of the cosmos and a direct contradiction of the Ptolemeic model which had prevailed from the second century A.D.

Named by Galileo the Medician Stars after his benefactor Cosimo Medici II, they are collectively referred to as the Galiean satellites (after their discoverer Galileo).[9]

References

  1. Honey, I Shrunk the Solar System NASA. “The International Astronomical Union has decided that, to be called a planet, an object must have three traits. It must orbit the sun, be massive enough that its own gravity pulls it into a nearly round shape, and be dominant enough to clear away objects in its neighborhood.”
  2. Jupiter NASA
  3. Galileo, Cassini, and the Great Red Spot NASA
  4. 4.0 4.1 Jupiter's new red spot NASA
  5. 5.0 5.1 The orbits of the planets National Maritime Museum
  6. Jupiter NASA
  7. http://burro.astr.cwru.edu/stu/jupiter_moons.html
  8. Pappalardo, R T (1999). Geology of the Icy Galilean Satellites: A Framework for Compositional Studies. Brown University. Retrieved on 2006-01-16.
  9. John Gribbin (2002). Science: A History. London: Allen Lane The Penguin Press.

External Links

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