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Jupiter Astronomical symbol of Jupiter
Jupiter and its shrunken Great Red Spot.jpg
Full-disc view of Jupiter in natural color in April 2014
Designations
Pronunciation/ˈpɪtər/
AdjectivesJovian
Orbital characteristics
Epoch J2000
Aphelion816.62 million km (5.4588 AU)
Perihelion740.52 million km (4.9501 AU)
778.57 million km (5.2044 AU)
Eccentricity0.0489
398.88 d
Average orbital speed
13.07 km/s (8.12 mi/s)
20.020°
Inclination
100.464°
273.867°
Known satellites79 (as of 2018)
Physical characteristics
Mean radius
69,911 km (43,441 mi)
Equatorial radius
  • 71,492 km (44,423 mi)
  • 11.209 Earths
Polar radius
  • 66,854 km (41,541 mi)
  • 10.517 Earths
Flattening0.06487
  • 6.1419×1010 km2 (2.3714×1010 sq mi)
  • 121.9 Earths
Volume
  • 1.4313×1015 km3 (3.434×1014 cu mi)
  • 1,321 Earths
Mass
  • 1.8982×1027 kg (4.1848×1027 lb)
  • 317.8 Earths
  • 1/1047 Sun
Mean density
1,326 kg/m3 (2,235 lb/cu yd)
24.79 m/s2 (81.3 ft/s2)
2.528 g
0.254 I/MR2 (estimate)
59.5 km/s (37.0 mi/s)
Sidereal rotation period
9.925 hours (9 h 55 m 30 s)
Equatorial rotation velocity
12.6 km/s (7.8 mi/s; 45,000 km/h)
3.13° (to orbit)
North pole right ascension
268.057°; 17h 52m 14s
North pole declination
64.495°
Albedo0.503 (Bond)
0.538 (geometric)
Surface temp. min mean max
1 bar level
165 K (−108 °C)
0.1 bar
112 K (−161 °C)
−2.94 to −1.66
29.8″ to 50.1″
Atmosphere
Surface pressure
20–200 kPa; 70 kPa
27 km (17 mi)
Composition by volumeby volume:
89%±2.0% hydrogen (H
2
)
10%±2.0% helium (He)
0.3%±0.1% methane (CH
4
)
0.026%±0.004% ammonia (NH
3
)
0.0028%±0.001% hydrogen deuteride (HD)
0.0006%±0.0002% ethane (C
2
H
6
)
0.0004%±0.0004% water (H
2
O)
Ices:

Jupiter is the fifth planet from the Sun and the largest in the Solar System. It is a giant planet with a mass one-thousandth that of the Sun, but two-and-a-half times that of all the other planets in the Solar System combined. Jupiter and Saturn are gas giants; the other two giant planets, Uranus and Neptune, are ice giants. Jupiter has been known to astronomers since antiquity. It is named after the Roman god Jupiter. When viewed from Earth, Jupiter can reach an apparent magnitude of −2.94, bright enough for its reflected light to cast shadows, and making it on average the third-brightest natural object in the night sky after the Moon and Venus.

Jupiter is primarily composed of hydrogen with a quarter of its mass being helium, though helium comprises only about a tenth of the number of molecules. It may also have a rocky core of heavier elements, but like the other giant planets, Jupiter lacks a well-defined solid surface. Because of its rapid rotation, the planet's shape is that of an oblate spheroid (it has a slight but noticeable bulge around the equator). The outer atmosphere is visibly segregated into several bands at different latitudes, resulting in turbulence and storms along their interacting boundaries. A prominent result is the Great Red Spot, a giant storm that is known to have existed since at least the 17th century when it was first seen by telescope. Surrounding Jupiter is a faint planetary ring system and a powerful magnetosphere. Jupiter has 79 known moons, including the four large Galilean moons discovered by Galileo Galilei in 1610. Ganymede, the largest of these, has a diameter greater than that of the planet Mercury.

Jupiter has been explored on several occasions by robotic spacecraft, most notably during the early Pioneer and Voyager flyby missions and later by the Galileo orbiter. In late February 2007, Jupiter was visited by the New Horizons probe, which used Jupiter's gravity to increase its speed and bend its trajectory en route to Pluto. The latest probe to visit the planet is Juno, which entered into orbit around Jupiter on July 4, 2016. Future targets for exploration in the Jupiter system include the probable ice-covered liquid ocean of its moon Europa.

Formation and migration

Astronomers have discovered nearly 500 planetary systems with multiple planets. Regularly these systems include a few planets with masses several times greater than Earth's (super-Earths), orbiting closer to their star than Mercury is to the Sun, and sometimes also Jupiter-mass gas giants close to their star.

Earth and its neighbor planets may have formed from fragments of planets after collisions with Jupiter destroyed those super-Earths near the Sun. As Jupiter came toward the inner Solar System, in what theorists call the grand tack hypothesis, gravitational tugs and pulls occurred causing a series of collisions between the super-Earths as their orbits began to overlap.

Jupiter moving out of the inner Solar System would have allowed the formation of inner planets, including Earth.

Physical characteristics

Jupiter is composed primarily of gaseous and liquid matter. It is the largest of the four giant planets in the Solar System and hence its largest planet. It has a diameter of 142,984 km (88,846 mi) at its equator. The average density of Jupiter, 1.326 g/cm3, is the second highest of the giant planets, but lower than those of the four terrestrial planets.

Composition

Jupiter's upper atmosphere is about 88–92% hydrogen and 8–12% helium by percent volume of gas molecules. A helium atom has about four times as much mass as a hydrogen atom, so the composition changes when described as the proportion of mass contributed by different atoms. Thus, Jupiter's atmosphere is approximately 75% hydrogen and 24% helium by mass, with the remaining one percent of the mass consisting of other elements. The atmosphere contains trace amounts of methane, water vapor, ammonia, and silicon-based compounds. There are also traces of carbon, ethane, hydrogen sulfide, neon, oxygen, phosphine, and sulfur. The outermost layer of the atmosphere contains crystals of frozen ammonia. The interior contains denser materials - by mass it is roughly 71% hydrogen, 24% helium, and 5% other elements. Through infrared and ultraviolet measurements, trace amounts of benzene and other hydrocarbons have also been found.

The atmospheric proportions of hydrogen and helium are close to the theoretical composition of the primordial solar nebula. Neon in the upper atmosphere only consists of 20 parts per million by mass, which is about a tenth as abundant as in the Sun. Helium is also depleted to about 80% of the Sun's helium composition. This depletion is a result of precipitation of these elements into the interior of the planet.

Based on spectroscopy, Saturn is thought to be similar in composition to Jupiter, but the other giant planets Uranus and Neptune have relatively less hydrogen and helium and relatively more ices and are thus now termed ice giants.

Mass and size