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Ceres ⚳
Ceres - RC3 - Haulani Crater (22381131691).jpg
A view of Ceres in natural color, pictured by the Dawn spacecraft in May 2015.
Discovery
Discovered byGiuseppe Piazzi
Discovery date1 January 1801
Designations
MPC designation(1) Ceres
Pronunciation/ˈsɪərz/
Named after
Cerēs
A899 OF; 1943 XB
Dwarf planet
Asteroid belt
AdjectivesCererian /sɪˈrɪəriən/,
rarely Cererean /sɛrɪˈrən/
Orbital characteristics
Epoch 2014-Dec-09
(JD 2,457,000.5)
Aphelion2.9773 AU
(445,410,000 km)
Perihelion2.5577 AU
(382,620,000 km)
2.7675 AU
(414,010,000 km)
Eccentricity0.075823
4.60 yr
1,681.63 d
466.6 d
1.278 yr
Average orbital speed
17.905 km/s
95.9891°
Inclination10.593° to ecliptic
9.20° to invariable plane
80.3293°
72.5220°
Proper orbital elements
2.7670962 AU
Proper eccentricity
0.1161977
Proper inclination
9.6474122°
Proper mean motion
78.193318 deg / yr
4.60397 yr
(1681.601 d)
Precession of perihelion
54.070272 arcsec / yr
Precession of the ascending node
−59.170034 arcsec / yr
Physical characteristics
Dimensions(965.2 × 961.2
× 891.2) ± 2.0 km
Mean radius
473 km
2,770,000 km2
Volume421,000,000 km3
Mass(9.393±0.005)×1020 kg 0.00015 Earths
0.0128 Moons
Mean density
2.161±0.009 g/cm3
Equatorial surface gravity
0.28 m/s2
0.029 g
0.37 (estimate)
Equatorial escape velocity
0.51 km/s
Sidereal rotation period
0.3781 d
9.074170±0.000002 h
Equatorial rotation velocity
92.61 m/s
North pole right ascension
291.42744°
North pole declination
66.764°
0.090±0.0033 (V-band)
Surface temp. min mean max
Kelvin
≈ 168 K 235 K
C
6.64 to 9.34
3.34
0.854″ to 0.339″

Ceres (/ˈsɪərz/; minor-planet designation: 1 Ceres) is the largest object in the asteroid belt that lies between the orbits of Mars and Jupiter, slightly closer to Mars' orbit. With a diameter of 945 km (587 mi), Ceres is the largest of the minor planets, and the only dwarf planet, inside Neptune's orbit. It is the 33rd-largest known body in the Solar System.

Ceres is composed of rock and ice and is estimated to comprise approximately one-third of the mass of the entire asteroid belt. Ceres is the only object in the asteroid belt known to be rounded by its own gravity (though detailed analysis was required to exclude 4 Vesta). From Earth, the apparent magnitude of Ceres ranges from 6.7 to 9.3, peaking once in opposition every 15 to 16 months (its synodic period); thus even at its brightest, it appears too dim to the naked eye, except under extremely dark skies.

Ceres was the first asteroid to be discovered (by Giuseppe Piazzi at Palermo Astronomical Observatory on 1 January 1801). It was originally considered a planet, but was reclassified as an asteroid in the 1850s after many other objects in similar orbits were discovered.

Ceres appears to be differentiated into a rocky core and an icy mantle, and may have a remnant internal ocean of liquid water under the layer of ice. The surface is a mixture of water ice and various hydrated minerals such as carbonates and clay. In January 2014, emissions of water vapor were detected from several regions of Ceres. This was unexpected because large bodies in the asteroid belt typically do not emit vapor, a hallmark of comets.

The robotic NASA spacecraft Dawn entered orbit around Ceres on 6 March 2015. Pictures with a resolution previously unattained were taken during imaging sessions starting in January 2015 as Dawn approached Ceres, showing a cratered surface. Two distinct bright spots (or high-albedo features) inside a crater (different from the bright spots observed in earlier Hubble images) were seen in a 19 February 2015 image, leading to speculation about a possible cryovolcanic origin or outgassing. On 3 March 2015, a NASA spokesperson said the spots are consistent with highly reflective materials containing ice or salts, but that cryovolcanism is unlikely. However, on 2 September 2016, scientists from the Dawn team claimed in a Science paper that a massive cryovolcano called Ahuna Mons is the strongest evidence yet for the existence of these mysterious formations. On 11 May 2015, NASA released a higher-resolution image showing that, instead of one or two spots, there are actually several. On 9 December 2015, NASA scientists reported that the bright spots on Ceres may be related to a type of salt, particularly a form of brine containing magnesium sulfate hexahydrite (MgSO4·6H2O); the spots were also found to be associated with ammonia-rich clays. In June 2016, near-infrared spectra of these bright areas were found to be consistent with a large amount of sodium carbonate (Na
2
CO
3
), implying that recent geologic activity was probably involved in the creation of the bright spots. In July 2018, NASA released a comparison of physical features found on Ceres with similar ones present on Earth. From June to October, 2018, Dawn orbited Ceres from as close as 35 km (22 mi) and as far away as 4,000 km (2,500 mi). The Dawn mission ended due to a lack of fuel on November 1, 2018.

In October 2015, NASA released a true-color portrait of Ceres made by Dawn. In February 2017, organics (tholins) were detected on Ceres in Ernutet crater.

History