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Uranus

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Uranus

Uranus is the seventh planet from the Sun. It is a gaseous cyan-coloured ice giant. Most of the planet is made of water, ammonia, and methane in a supercritical phase of matter, which astronomy calls "ice" or volatiles. The planet's atmosphere has a complex layered cloud structure and has the lowest minimum temperature (49 K (−224 °C; −371 °F)) of all the Solar System's planets. It has a marked axial tilt of 82.23° with a retrograde rotation period of 17 hours and 14 minutes. This means that in an 84-Earth-year orbital period around the Sun, its poles get around 42 years of continuous sunlight, followed by 42 years of continuous darkness. Uranus has the third-largest diameter and fourth-largest mass among the Solar System's planets. Based on current models, inside its volatile mantle layer is a rocky core, and a thick hydrogen and helium atmosphere surrounds it. Trace amounts of hydrocarbons (thought to be produced via hydrolysis) and carbon monoxide along with carbon dioxide (thought to have originated from comets) have been detected in the upper atmosphere. There are many unexplained climate phenomena in Uranus's atmosphere, such as its peak wind speed of 900 km/h (560 mph), variations in its polar cap, and its erratic cloud formation. The planet also has very low internal heat compared to other giant planets, the cause of which remains unclear. Like the other giant planets, Uranus has a ring system, a magnetosphere, and many natural satellites. The extremely dark ring system reflects only about 2% of the incoming light. Uranus's 29 natural satellites include 19 known regular moons, of which 14 are small inner moons. Further out are the larger five major moons of the planet: Miranda, Ariel, Umbriel, Titania, and Oberon. Orbiting at a much greater distance from Uranus are the ten known irregular moons. The planet's magnetosphere is highly asymmetric and has many charged particles, which may be the cause of the darkening of its rings and moons. Uranus is visible to the naked eye, but it is very dim and moves very slowly relative to the background stars and was not classified as a planet until 1781, when it was first observed by William Herschel. About seven decades after its discovery, consensus was reached that the planet be named after the Greek god Uranus (Ouranos), one of the Greek primordial deities. As of 2025, it has been visited only once when in 1986 the Voyager 2 probe flew by the planet. Though nowadays it can be resolved and observed by telescopes, there is much desire to revisit the planet, as shown by Planetary Science Decadal Survey's decision to make the proposed Uranus Orbiter and Probe mission a top priority in the 2023–2032 survey, and the CNSA's proposal to fly by the planet with a subprobe of Tianwen-4.

Infobox

Discovered by
William Herschel
Discovery date
13 March 1781
Pronunciation
/ˈjʊərənəs/ ⓘ or /jʊˈreɪnəs/ ⓘ
Named after
the Latin form Ūranus of the Greek god Οὐρανός Ouranos
Adjectives
Uranian (/jʊˈreɪniən/)
Aphelion
20.0965 AU (3.00639 billion km)
Perihelion
18.2861 AU (2.73556 billion km)
Semi-major axis
19.19126 AU (2.870972 billion km)
Eccentricity
0.04717
Orbital period (sidereal)
mw- 84.0205 yr 30,688.5 d 42,718 Uranian solar days
Orbital period (synodic)
369.66 days
Average orbital speed
6.80 km/s
Mean anomaly
142.238600°
Inclination
0.773° to ecliptic6.48° to Sun's equator0.99° to invariable plane
Longitude of ascending node
74.006°
Time of perihelion
17–19 August 2050
Argument of perihelion
96.998857°
Known satellites
29
Mean radius
25,362±7 km[c]
Equatorial radius
25,559±4 km4.007 Earths[c]
Polar radius
24,973±20 km3.929 Earths[c]
Flattening
0.0229±0.0008[d]
Circumference
159,354.1 km
Surface area
8.1156×109 km2[c] 15.91 Earths
Volume
6.833×1013 km3[c] 63.086 Earths
Mass
(8.6810±0.0013)×1025 kg 14.536 Earths GM=5,793,939±13 km3/s2
Mean density
1.27 g/cm3[e]
Surface gravity
8.69 m/s2 (0.886 g0)[c]
Moment of inertia factor
0.23 (estimate)
Escape velocity
21.3 km/s[c]
Synodic rotation period
−0.718649 d−17h 14m 51s(retrograde)
Sidereal rotation period
−0.718661 d −17h 14m 52.310s ± 0.036s(retrograde)
Equatorial rotation velocity
2.59 km/s
Axial tilt
82.23° (to orbit, retrograde). 97.77°(prograde, right-hand rule)
North pole right ascension
17h 9m 15s257.311°
North pole declination
−15.175°
Albedo
0.300 (Bond)0.488 (geom.)
Surface temp.
Surface temp. min mean max 1 bar level 76 K(−197.2 °C) 0.1 bar(tropopause) 47 K 53 K 57 K
0.1 bar(tropopause)
47 K
Apparent magnitude
5.38 to 6.03
Absolute magnitude (H)
−7.2
Angular diameter
3.3″ to 4.1″
Scale height
27.7 km
Composition by volume
Below 1.3 bar (130 kPa): 83 ± 3% hydrogen 15 ± 3% helium 2.3% methane 0.009% (0.007–0.015%) hydrogen deuteride hydrogen sulfide (trace amount) Icy volatiles: li , li ammoniawater iceammonium hydrosulfidemethane hydrate

Tables

List of solstices and equinoxes[82] · Orbit and rotation › Axial tilt
Winter solstice
Winter solstice
Northern hemisphere
Winter solstice
Year
1902, 1986, 2069
Southern hemisphere
Summer solstice
Vernal equinox
Vernal equinox
Northern hemisphere
Vernal equinox
Year
1923, 2007, 2092
Southern hemisphere
Autumnal equinox
Summer solstice
Summer solstice
Northern hemisphere
Summer solstice
Year
1944, 2028
Southern hemisphere
Winter solstice
Autumnal equinox
Autumnal equinox
Northern hemisphere
Autumnal equinox
Year
1965, 2050
Southern hemisphere
Vernal equinox
Northern hemisphere
Year
Southern hemisphere
Winter solstice
1902, 1986, 2069
Summer solstice
Vernal equinox
1923, 2007, 2092
Autumnal equinox
Summer solstice
1944, 2028
Winter solstice
Autumnal equinox
1965, 2050
Vernal equinox

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  3. Refers to the level of 1 bar atmospheric pressure.
  4. Calculated using data from Seidelmann, 2007.
  5. Based on the volume within the level of 1 bar atmospheric pressure.
  6. Calculation of He, H2 and CH4 molar fractions is based on a 2.3% mixing ratio of methane to hydrogen and the 15/85 He/H2
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  8. Cf. (not supported by all fonts)
  9. Cf. (not supported by all fonts)
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