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second-most massive body in the asteroid belt,<ref name="Pitjeva2004"/> (Tag Fact)
Pitjeva05. Single ref for mass compared to Ceres (1.344/4.753=28%) and Mbelt (1.344/15=9%).
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| avg_speed=19.34 km/[[second|s]]
| avg_speed=19.34 km/[[second|s]]
| dimensions= 578×560×458 km<ref name="Thomas1997">Thomas, P. C.; ''et al.''; ''Impact excavation on asteroid 4 Vesta: Hubble Space Telescope results'', Science, Vol. 277, pp. 1492 (1997).</ref>
| dimensions= 578×560×458 km<ref name="Thomas1997">Thomas, P. C.; ''et al.''; ''Impact excavation on asteroid 4 Vesta: Hubble Space Telescope results'', Science, Vol. 277, pp. 1492 (1997).</ref>
| mass=2.7×10<sup>20</sup> [[kilogram|kg]]<ref name="Pitjeva2004"> {{cite conference
| mass=2.7×10<sup>20</sup> [[kilogram|kg]]<ref name="Pitjeva05"/><ref name="Pitjeva2004"> {{cite conference
|first=E. V. |last=Pitjeva
|first=E. V. |last=Pitjeva
|authorlink=Elena V. Pitjeva
|authorlink=Elena V. Pitjeva
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| single_temperature=''min:'' 85 [[Kelvin|K]] (-188° [[Celsius|C]])<br>''max:'' 255 K (-18 °C)<ref name="Mueller01">[http://www.esa.int/esapub/bulletin/bullet108/chapter4_bul108.pdf Mueller, T. G.; and Metcalfe, L.; ''ISO and Asteroids''], ESA bulletin Vol. 108, p. 38 (2001).</ref>
| single_temperature=''min:'' 85 [[Kelvin|K]] (-188° [[Celsius|C]])<br>''max:'' 255 K (-18 °C)<ref name="Mueller01">[http://www.esa.int/esapub/bulletin/bullet108/chapter4_bul108.pdf Mueller, T. G.; and Metcalfe, L.; ''ISO and Asteroids''], ESA bulletin Vol. 108, p. 38 (2001).</ref>
}}
}}
'''4 Vesta''' ({{pronEng|ˈvɛstə}}, {{lang-la|Vesta}}) is the second most massive object in the [[asteroid belt]], with a mean [[diameter]] of about {{convert|530|km|mi|0}}<ref name=jpldata/> and an estimated mass of 9% of the mass of the entire asteroid belt.<!-- 1.344±0.001 ÷ 15±2 (E-10 solar masses) --><ref name="Pitjeva04b">Pitjeva, E. V.; [http://journals.cambridge.org/download.php?file=%2FIAU%2FIAU2004_IAUC196%2FS1743921305001419a.pdf&code=fef28edd9ad477b96798fcc5c0bfb3b2 ''Precise determination of the motion of planets and some astronomical constants from modern observations''], in Kurtz, D. W. (Ed.), ''Proceedings of IAU Colloquium No. 196: Transits of Venus: New Views of the Solar System and Galaxy'', 2004</ref> It was discovered by the [[Germany|German]] [[astronomer]] [[Heinrich Wilhelm Olbers]] on [[March 29]], [[1807]],<ref name=jpldata/> and named after the [[Roman mythology|Roman]] [[virgin]] [[goddess]] of home and hearth, [[Vesta (mythology)|Vesta]].
'''4 Vesta''' ({{pronEng|ˈvɛstə}}, {{lang-la|Vesta}}) is the second most massive object in the [[asteroid belt]], with a mean [[diameter]] of about {{convert|530|km|mi|0}}<ref name=jpldata/> and an estimated mass of 9% of the mass of the entire asteroid belt.<!-- 1.344±0.001 ÷ 15±2 (E-10 solar masses) --><ref name="Pitjeva05"> {{cite journal |last=Pitjeva |first=E. V. |authorlink=Elena V. Pitjeva |title=High-Precision Ephemerides of Planets—EPM and Determination of Some Astronomical Constants |journal=Solar System Research |year=2005 |volume=39 |issue=3 |pages=176 |url=http://iau-comm4.jpl.nasa.gov/EPM2004.pdf |format=[[PDF]] |doi=10.1007/s11208-005-0033-2}}</ref> It was discovered by the [[Germany|German]] [[astronomer]] [[Heinrich Wilhelm Olbers]] on [[March 29]], [[1807]],<ref name=jpldata/> and named after the [[Roman mythology|Roman]] [[virgin]] [[goddess]] of home and hearth, [[Vesta (mythology)|Vesta]].


Vesta lost some 1% of its mass in a collision less than one [[1,000,000,000 (number)|billion]] years ago. Many fragments of this event have fallen to Earth as [[HED meteorite]]s, a rich source of evidence about the asteroid.<ref name="Kelley2003"/> Vesta is the [[List_of_notable_asteroids#Brightest_asteroids_.28from_Earth.29|brightest asteroid]]. Its greatest distance from the [[Sun]] is slightly more than the minimum distance of [[Ceres (dwarf planet)|Ceres]] from the Sun,<ref>On February 10, 2009, during Ceres [[Apsis|perihelion]], Ceres will be closer to the Sun than Vesta since Vesta has an [[Apsis|aphelion]] distance greater than Ceres' perihelion distance. (2009-02-10: Vesta 2.56AU; Ceres 2.54AU)</ref> and its orbit is entirely within the orbit of Ceres.<ref>{{cite web
Vesta lost some 1% of its mass in a collision less than one [[1,000,000,000 (number)|billion]] years ago. Many fragments of this event have fallen to Earth as [[HED meteorite]]s, a rich source of evidence about the asteroid.<ref name="Kelley2003"/> Vesta is the [[List_of_notable_asteroids#Brightest_asteroids_.28from_Earth.29|brightest asteroid]]. Its greatest distance from the [[Sun]] is slightly more than the minimum distance of [[Ceres (dwarf planet)|Ceres]] from the Sun,<ref>On February 10, 2009, during Ceres [[Apsis|perihelion]], Ceres will be closer to the Sun than Vesta since Vesta has an [[Apsis|aphelion]] distance greater than Ceres' perihelion distance. (2009-02-10: Vesta 2.56AU; Ceres 2.54AU)</ref> and its orbit is entirely within the orbit of Ceres.<ref>{{cite web
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|url=http://hubblesite.org/newscenter/archive/releases/1995/20/image/c
|url=http://hubblesite.org/newscenter/archive/releases/1995/20/image/c
|accessdate=2006-10-17}}</ref> and is similar to [[2 Pallas]] in volume (to within uncertainty) but significantly more massive.
|accessdate=2006-10-17}}</ref> and is similar to [[2 Pallas]] in volume (to within uncertainty) but significantly more massive.
Vesta's shape is relatively close to a gravitationally relaxed [[oblate spheroid]],<ref name="Thomas1997b">Thomas, P. C.; ''et al.''; ''Vesta: Spin Pole, Size, and Shape from HST Images'', Icarus, Vol. 128, p. 88 (1997).</ref> but the large concavity and protrusion at the pole (see 'Surface Features' below) precluded it from being considered a [[dwarf planet]] under [[IAU Resolution XXVI 5]]. In any case, this resolution was rejected by the IAU membership and Vesta will continue to be called an asteroid. However, Vesta may be listed as a [[dwarf planet]] in the future, if it is convincingly determined that its shape, other than the massive impact basin at the southern pole, is due to [[hydrostatic equilibrium]]. It is believed to have once been spherical.<ref name=Hubble/>
Vesta's shape is relatively close to a gravitationally relaxed [[oblate spheroid]],<ref name="Thomas1997b">Thomas, P. C.; ''et al.''; ''Vesta: Spin Pole, Size, and Shape from HST Images'', Icarus, Vol. 128, p. 88 (1997).</ref> but the large concavity and protrusion at the pole (see 'Surface Features' below) precluded it from being considered a [[dwarf planet]] under [[IAU Resolution XXVI 5]]. In any case, this resolution was rejected by the IAU membership and Vesta will continue to be called an asteroid. However, Vesta may be listed as a [[dwarf planet]] in the future, if it is convincingly determined that its shape, other than the massive impact basin at the southern pole, is due to [[hydrostatic equilibrium]]. It is believed to have once been spherical.<ref name=Hubble/> Though Vesta is only 28% as massive as Ceres.<ref name="Pitjeva05"/>


Its rotation is relatively fast for an asteroid (5.342&nbsp;h) and [[prograde]], with the north pole pointing in the direction of [[right ascension]] 20&nbsp;h&nbsp;32&nbsp;min, [[declination]] +48° with an uncertainty of about 10°. This gives an [[axial tilt]] of 29°.<ref name="Thomas1997b"/>
Its rotation is relatively fast for an asteroid (5.342&nbsp;h) and [[prograde]], with the north pole pointing in the direction of [[right ascension]] 20&nbsp;h&nbsp;32&nbsp;min, [[declination]] +48° with an uncertainty of about 10°. This gives an [[axial tilt]] of 29°.<ref name="Thomas1997b"/>

Revision as of 14:09, 4 November 2008

4 Vesta
4 Vesta seen by the Hubble Space Telescope in May 2007
Discovery
Discovered byHeinrich Wilhelm Olbers
Discovery dateMarch 29, 1807
Designations
none
Main belt (Vesta family)
AdjectivesVestian
SymbolModern astrological symbol of Vesta
Orbital characteristics[1]
Epoch May 14 2008 (JD 2454600.5)
Aphelion384.72 Gm (2.572 AU)
Perihelion321.82 Gm (2.151 AU)
353.268 Gm (2.361 AU)
Eccentricity0.089 17
1325.15 d (3.63 a)
19.34 km/s
90.53°
Inclination7.135°
103.91°
149.83°
Physical characteristics
Dimensions578×560×458 km[2]
Mass2.7×1020 kg[3][4]
Mean density
3.4 g/cm³
0.22 m/s²
0.35 km/s
0.222 6 d[1][5]
Albedo0.423 (geometric)[6]
Temperaturemin: 85 K (-188° C)
max: 255 K (-18 °C)[7]
Spectral type
V-type asteroid[1][8]
5.1[9] to 8.48
3.20[1][6]
0.64" to 0.20"

4 Vesta (Template:PronEng, Latin: Vesta) is the second most massive object in the asteroid belt, with a mean diameter of about 530 kilometres (329 mi)[1] and an estimated mass of 9% of the mass of the entire asteroid belt.[3] It was discovered by the German astronomer Heinrich Wilhelm Olbers on March 29, 1807,[1] and named after the Roman virgin goddess of home and hearth, Vesta.

Vesta lost some 1% of its mass in a collision less than one billion years ago. Many fragments of this event have fallen to Earth as HED meteorites, a rich source of evidence about the asteroid.[10] Vesta is the brightest asteroid. Its greatest distance from the Sun is slightly more than the minimum distance of Ceres from the Sun,[11] and its orbit is entirely within the orbit of Ceres.[12]

Discovery

Size comparison: the first 10 asteroids profiled against Earth's Moon. Vesta is fourth from the left. (The leftmost object, 1 Ceres, is now classified as a dwarf planet)

Vesta was discovered by the German astronomer Heinrich Wilhelm Olbers on March 29, 1807. He allowed the prominent mathematician Carl Friedrich Gauss to name the asteroid after the Roman virgin goddess of home and hearth, Vesta.

After the discovery of Vesta in 1807, no further asteroids were discovered for 38 years.[13] During this time the four known asteroids were counted among the planets, and each had its own planetary symbol. Vesta was normally represented by a stylized hearth (, ⚶). Other symbols are Old symbol of Vesta and Old planetary symbol of Vesta. All are simplifications of the original .[14]

Physical characteristics

Vesta, the second-most massive body in the asteroid belt,[4] is in the Inner Main Belt which lies interior to the Kirkwood gap at 2.50 AU. It has a differentiated interior,[15] and is similar to 2 Pallas in volume (to within uncertainty) but significantly more massive. Vesta's shape is relatively close to a gravitationally relaxed oblate spheroid,[16] but the large concavity and protrusion at the pole (see 'Surface Features' below) precluded it from being considered a dwarf planet under IAU Resolution XXVI 5. In any case, this resolution was rejected by the IAU membership and Vesta will continue to be called an asteroid. However, Vesta may be listed as a dwarf planet in the future, if it is convincingly determined that its shape, other than the massive impact basin at the southern pole, is due to hydrostatic equilibrium. It is believed to have once been spherical.[15] Though Vesta is only 28% as massive as Ceres.[3]

Its rotation is relatively fast for an asteroid (5.342 h) and prograde, with the north pole pointing in the direction of right ascension 20 h 32 min, declination +48° with an uncertainty of about 10°. This gives an axial tilt of 29°.[16]

Temperatures on the surface have been estimated to lie between about -20 °C with the Sun overhead, dropping to about -190 °C at the winter pole. Typical day-time and night-time temperatures are -60 °C and -130 °C, respectively. This estimate is for May 6, 1996, very close to perihelion, while details vary somewhat with the seasons.[7]

Geology

For Vesta, there is a large collection of potential samples accessible to scientists, in the form of over 200 HED meteorites, giving insight into Vesta's geologic history and structure.

Vesta is thought to consist of a metallic iron-nickel core, an overlying rocky olivine mantle, with a surface crust. From the first appearance of Ca-Al-rich inclusions (the first solid matter in the Solar System, forming about 4567 million years ago), a likely timeline is as follows:[17][18][19]

  • Accretion completed after about 2-3 million years.
  • Complete or almost complete melting due to radioactive decay of 26Al, leading to separation of the metal core at about 4-5 million years.
  • Progressive crystallization of a convecting molten mantle. Convection stopped when about 80% of the material had crystallized, at about 6-7 million years.
  • Extrusion of the remaining molten material to form the crust. Either as basaltic lavas in progressive eruptions, or possibly forming a short-lived magma ocean.
  • The deeper layers of the crust crystallize to form plutonic rocks, while older basalts are metamorphosed due to the pressure of newer surface layers.
  • Slow cooling of the interior.
File:Vesta elevation HST1996.jpg
Elevation diagram of 4 Vesta viewed from the south-east, showing the south pole crater. As determined from Hubble Space Telescope images of May 1996.

Vesta is the only known intact asteroid that has been resurfaced in this manner. However, the presence of iron meteorites and achondritic meteorite classes without identified parent bodies indicates that there once were other differentiated planetesimals with igneous histories, which have since been shattered by impacts.

Vesta's crust is reasoned to consist of (in order of increasing depth):[20]

On the basis of the sizes of V-type asteroids (thought to be pieces of Vesta's crust ejected during large impacts), and the depth of the south polar crater (see below), the crust is thought to be roughly 10 kilometres (6.2 mi)* thick.

Surface features

Elevation map of 4 Vesta, as determined from Hubble Space Telescope images of May 1996

Some Vestian surface features have been resolved using the Hubble Space Telescope and ground based telescopes, e.g. the Keck Telescope.

The most prominent surface feature is an enormous crater 460 kilometres (290 mi)* in diameter centered near the south pole.[16] Its width is 80% of the entire diameter of Vesta. The floor of this crater is about 13 kilometres (8.1 mi)* below, and its rim rises 4-12 km above the surrounding terrain, with total surface relief of about 25 km. A central peak rises 18 kilometres (11 mi)* above the crater floor. It is estimated that the impact responsible excavated about 1% of the entire volume of Vesta, and it is likely that the Vesta family and V-type asteroids are the products of this collision. If this is the case, then the fact that 10 km fragments of the Vesta family and V-type asteroids have survived bombardment until the present indicates that the crater is only about 1 billion years old or younger.[21] It would also be the original site of origin of the HED meteorites. In fact, all the known V-type asteroids taken together account for only about 6% of the ejected volume, with the rest presumably either in small fragments, ejected by approaching the 3:1 Kirkwood gap, or perturbed away by the Yarkovsky effect or radiation pressure. Spectroscopic analyses of the Hubble images[21] have shown that this crater has penetrated deep through several distinct layers of the crust, and possibly into the mantle which is indicated by spectral signatures of olivine. Interestingly Vesta was not disrupted nor resurfaced by an impact of this magnitude.

Spectral and albedo maps of 4 Vesta, as determined from Hubble Space Telescope images from November 1994

Several other large craters about 150 kilometres (93 mi)* wide and 7 kilometres (4.3 mi)* deep are also present. A dark albedo feature about 200 kilometres (120 mi)* across has been named Olbers in honour of Vesta's discoverer, but it does not appear in elevation maps as a fresh crater would, and its nature is presently unknown, perhaps an old basaltic surface.[22] It serves as a reference point with the 0° longitude prime meridian defined to pass through its center.

The eastern and western hemispheres show markedly different terrains. From preliminary spectral analyses of the Hubble Space Telescope images,[21] the eastern hemisphere appears to be some kind of high albedo, heavily cratered "highland" terrain with aged regolith, and craters probing into deeper plutonic layers of the crust. On the other hand, large regions of the western hemisphere are taken up by dark geologic units thought to be surface basalts, perhaps analogous to the lunar maria.

Fragments

4 Vesta and 1 Ceres alongside Earth's Moon

Some small solar system objects are believed to be fragments of Vesta caused by collisions. The Vestoid asteroids and HED meteorites are examples. The V-type asteroid 1929 Kollaa has been determined to have a composition akin to cumulate eucrite meteorites, indicating its origin deep within Vesta's crust.[10]

Because a number of meteorites are believed to be Vestian fragments, Vesta is currently one of only five identified Solar system bodies for which we have physical samples, the others being Mars, the Moon, comet Wild 2, and Earth itself.

Exploration

The first space mission to Vesta will be NASA's Dawn probe--launched on September 27, 2007--which will orbit the asteroid for nine months from August 2011 until May 2012. Dawn will then proceed to its other target, Ceres and will probably continue to explore the asteroid belt on an extended mission using remaining fuel. The spacecraft is the first that can enter and leave orbit around more than one body, thanks to its weight-efficient ion driven engines.

NASA attempted to cancel Dawn in 2006, citing budget pressures and technical issues, but scientists appealed and won an additional $100 million to continue the program. Total mission costs will now be about $450 million.

Visibility

Vesta is seen from San Francisco on June 14, 2007

Its size and unusually bright surface make Vesta the brightest asteroid, and it is occasionally visible to the naked eye from dark (non-light polluted) skies. In May and June 2007, Vesta reached a peak magnitude of +5.4, the brightest since 1989.[23] At that time, opposition and perihelion were only a few weeks apart. It was visible in the constellations Ophiuchus and Scorpius.[24]

Less favourable oppositions during late autumn in the Northern Hemisphere still have Vesta at a magnitude of around +7.0. Even when in conjunction with the Sun, Vesta will have a magnitude around +8.5; thus from a pollution-free sky it can be observed with binoculars even at elongations much smaller than near opposition.[25]

See also

Notes and references

Footnotes

  1. ^ a b c d e f "JPL Small-Body Database Browser: 4 Vesta". Retrieved 2008-06-01.
  2. ^ Thomas, P. C.; et al.; Impact excavation on asteroid 4 Vesta: Hubble Space Telescope results, Science, Vol. 277, pp. 1492 (1997).
  3. ^ a b c Pitjeva, E. V. (2005). "High-Precision Ephemerides of Planets—EPM and Determination of Some Astronomical Constants" (PDF). Solar System Research. 39 (3): 176. doi:10.1007/s11208-005-0033-2.
  4. ^ a b Pitjeva, E. V. (2004). "Estimations of masses of the largest asteroids and the main asteroid belt from ranging to planets, Mars orbiters and landers". 35th COSPAR Scientific Assembly. Held 18 - 25 July 2004, in Paris, France. p. 2014. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
  5. ^ Harris, A. W. (2006). "Asteroid Lightcurve Derived Data. EAR-A-5-DDR-DERIVED-LIGHTCURVE-V8.0". NASA Planetary Data System. Retrieved 2007-03-15. {{cite web}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  6. ^ a b Tedesco, E. F. (2004). "IRAS Minor Planet Survey. IRAS-A-FPA-3-RDR-IMPS-V6.0". NASA Planetary Data System. Retrieved 2007-03-15. {{cite web}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  7. ^ a b Mueller, T. G.; and Metcalfe, L.; ISO and Asteroids, ESA bulletin Vol. 108, p. 38 (2001).
  8. ^ Neese, C. (2005). "Asteroid Taxonomy EAR-A-5-DDR-TAXONOMY-V5.0". NASA Planetary Data System. Retrieved 2007-03-15. {{cite web}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  9. ^ Menzel, Donald H.; and Pasachoff, Jay M. (1983). A Field Guide to the Stars and Planets (2nd edition ed.). Boston, MA: Houghton Mifflin. pp. p. 391. ISBN 0395348358. {{cite book}}: |edition= has extra text (help); |pages= has extra text (help)CS1 maint: multiple names: authors list (link)
  10. ^ a b Kelley, M. S.; et al.; Quantified mineralogical evidence for a common origin of 1929 Kollaa with 4 Vesta and the HED meteorites, Icarus, Vol. 165, p. 215 (2003).
  11. ^ On February 10, 2009, during Ceres perihelion, Ceres will be closer to the Sun than Vesta since Vesta has an aphelion distance greater than Ceres' perihelion distance. (2009-02-10: Vesta 2.56AU; Ceres 2.54AU)
  12. ^ "Ceres, Pallas Vesta and Hygeia". Gravity Simulator. Retrieved 2008-05-31.
  13. ^ "The Planet Hygea". spaceweather.com. 1849. Retrieved 2008-06-01.
  14. ^ Older form and discussion of its complexity from Gould, 1852 (Gould, B. A. 1852, On the Symbolic Notation of the Asteroids, Astron. J., 2, as cited and discussed here.
  15. ^ a b "Key Stages in the Evolution of the Asteroid Vesta". April 19, 1995. Retrieved 2006-10-17. {{cite web}}: Check date values in: |date= (help)
  16. ^ a b c Thomas, P. C.; et al.; Vesta: Spin Pole, Size, and Shape from HST Images, Icarus, Vol. 128, p. 88 (1997).
  17. ^ Ghosh, A.; and McSween, H. Y.; A Thermal Model for the Differentiation of Asteroid 4 Vesta, Based on Radiogenic Heating, Icarus, Vol. 134, p. 187 (1998).
  18. ^ Righter, K.; and Drake, M. J.; A magma ocean on Vesta: Core formation and petrogenesis of eucrites and diogenites, Meteoritics & Planetary Science, Vol. 32, p. 929 (1997).
  19. ^ Drake, M. J.; The eucrite/Vesta story, Meteoritics & Planetary Science, Vol. 36, p. 501 (2001).
  20. ^ Takeda, H.; Mineralogical records of early planetary processes on the HED parent body with reference to Vesta, Meteoritics & Planetary Science, Vol. 32, p. 841 (1997).
  21. ^ a b c Binzel, R. P.; et al.; Geologic Mapping of Vesta from 1994 Hubble Space Telescope Images, Icarus, Vol. 128, p. 95 (1997).
  22. ^ Zellner, B. J.; et al.; Hubble Space Telescope Images of Asteroid Vesta in 1994, Icarus, Vol. 128, p. 83 (1997).
  23. ^ Bryant, Greg. "Sky & Telescope: See Vesta at Its Brightest!". Retrieved May 7. {{cite web}}: Check date values in: |accessdate= (help); Cite has empty unknown parameter: |1= (help); Unknown parameter |accessyear= ignored (|access-date= suggested) (help)
  24. ^ Sky & Telescope, Vesta Finder. Retrieved on May 7, 2007.
  25. ^ VESTA

General references

  • Yeomans, Donald K. "Horizons system". NASA JPL. Retrieved 2007-03-20. – Horizons can be used to obtain a current ephemeris
  • Keil, K.; Geological History of Asteroid 4 Vesta: The Smallest Terrestrial Planet in Asteroids III, William Bottke, Alberto Cellino, Paolo Paolicchi, and Richard P. Binzel, (Editors), Univ. of Arizona Press (2002), ISBN 0-8165-2281-2

External links

Retrieved from "https://en.wikipedia.org/w/index.php?title=4_Vesta&oldid=249644071"