951 Gaspra

951 Gaspra

Infobox Planet | discovery=yes | physical_characteristics = yes | bgcolour=#FFFFC0 | name=951 Gaspra


caption=NASA image of Gaspra; the colors are exaggerated
discoverer=G. N. Neujmin
discovered = July 30, 1916
alt_names = SIGMA 45; A913 YA;
mp|1955 MG|1
mp_category = Main belt (Flora family)
epoch=6 March, 2006 (JD 2453800.5)
semimajor=330.544 Gm (2.210 AU)
perihelion=272.985 Gm (1.825 AU)
aphelion=388.102 Gm (2.594 AU)
eccentricity=0.174
period=1199.647 d (3.28 a)
inclination=4.102°
asc_node=253.218°
arg_peri=129.532°
mean_anomaly=53.057°
avg_speed = 19.88 km/s
dimensions=18.2×10.5×8.9 km cite journal | author= P. C. Thomas, J. Veverka, D. Simonelli, P. Helfenstein, B. Carcich, M. J. S. Belton, M. E. Davies, C. Chapman| title= "The Shape of Gaspra"| journal= Icarus| year= 1994| volume= 107|issue =1 |pages= 23–36|doi =10.1006/icar.1994.1004 ]
mass=2–3×1016 kg "(estimate)"
density= ~2.7 g/cm³ "(estimate)" cite journal| authorlink= Georgij A. Krasinsky | first=G. A. | last= Krasinsky | coauthors= Pitjeva, E. V.; Vasilyev, M. V.; Yagudina, E. I. | url=http://adsabs.harvard.edu/abs/2002Icar..158...98K| title=Hidden Mass in the Asteroid Belt| journal=Icarus| volume=158| issue=1| pages=98–105| month= July| year= 2002| doi=10.1006/icar.2002.6837]
surface_grav = ~0.002 m/s² "(estimate)"
escape_velocity=~0.006 km/s "(estimate)"
rotation=0.293 d (7.042 h) [http://www.psi.edu/pds/archive/lc.html PDS lightcurve data] ]
spectral_type=S
abs_magnitude = 11.46
albedo=0.22 [http://www.psi.edu/pds/archive/astdata04/simps04/diamalb.tab Supplemental IRAS Minor Planet Survey] ]
single_temperature = ~181 K
"max:" 281 K (+8°C)

951 Gaspra (pronEng|ˈɡæsprə) is an S-type asteroid that orbits very close to the inner edge of the main asteroid belt. Gaspra was the first asteroid ever to be closely approached when it was visited by the "Galileo" spacecraft, which flew by on its way to Jupiter on October 29, 1991.

Characteristics

Apart from a multitude of small craters, Gaspra has half a dozen large flat areas and concavities. One of these flat areas, (Dunne Regio), is a 5×7 km area which is flat to within 200m. It is uncertain whether these are the result of impacts or whether they are instead facets formed when Gaspra broke off its parent asteroid. In the weak, lopsided gravity of Gaspra, impact craters would naturally take on such flat, lopsided shapes, making this determination difficult. The flat facets and concavities give Gaspra a very angular appearance.

Gaspra appears to be fairly olivine-rich among the S-type asteroids (the surface appears to contain olivine and pyroxene in the proportions 4:1 to 7:1 cite journal | author= J.C. Granahan F.P. Fanale, & M.S. Robinson| title= "A Galileo Multi Spectral Instrument Analysis of 951 Gaspra"| journal= Abstracts of the 25th Lunar and Planetary Science Conference, held in Houston, TX, 14-18 March 1994| year= 1994| volume=|pages= 453] ). There are no prominent albedo or color patterns, although a subtle color variation is seen across the surface (see image above).

Gaspra's surface lacks unambiguous craters of a size comparable to its radius, like those seen e.g. on 253 Mathilde. A probable reason is that the collision that produced the Flora family and Gaspra was relatively recent on an astronomical timescale, so that Gaspra has not yet had the opportunity to acquire many large craters since. Analysis of cratering rates suggests the age of the surface is between about 20 to 300 million years cite journal
title = Galileo's Encounter with 951 Gaspra: Overview
author = Veverka, J.; Belton, M.; Klaasen, K.; Chapman, C.
journal = Icarus
year = 1994
volume = 107
issue = 1
pages = 2–17
doi = 10.1006/icar.1994.1002
] .

Grooves about 100-300m wide, up to 2.5 km long, and tens of meters deep are seen on Gaspra's surface, which may be related to Gaspra's formation along with the rest of the Flora family in an asteroid collision. Their presence also suggest that it is a single coherent body, rather than a rubble pile. The grooves were likely created by impacts that shattered the underlying rock. A system of much more prominent grooves is seen on the Martian moon Phobos. The pitted appearance of some grooves may suggest that the surface is covered by a regolith .

The extensiveness of regolith on Gaspra and its presence overall is a matter of debate, and not fully understood. Visually, the somewhat subdued and mantled appearance suggests a substantial regolith. Also, correlations are seen between the subtle color variations and local topography, and it has been suggested that this is caused by the slow migration of regolith to lower areas. It is, however, difficult to explain the origin of a putative regolith. Firstly, Gaspra's escape velocity is very small, so small that it is difficult to understand how it could keep a significant portion of fragments ejected by impacts from escaping. This may be alleviated if Gaspra is a porous body or started with a large regolith, but one has to explain how the original regolith appeared. A possible resolution of the issue may be that Gaspra obtained a regolith during the Flora-family forming impact that also created Gaspra itself. Secondly, it has been estimated that the matter ejected by all the craters would be only enough to cover Gaspra with 10 m of regolith. However, some craters are much deeper than this without showing any structural difference on their walls cite journal | author= M.J.S. Belton et al | title= "Galileo Encounter with 951 Gaspra: First Pictures of an Asteroid" | journal= Science| year= 1992 | volume= 257 | pages= 1647 | url= http://www.sciencemag.org/cgi/content/abstract/257/5077/1647 | doi = 10.1126/science.257.5077.1647 | format=abstract ] .

Gaspra's pole has been determined to point in the direction of RA 0h40m±10m, Declination 27±2° . This is equivalent to ecliptic coordinates (β, λ) = (21°, 20°) and gives an axial tilt of 72°.

The Galileo flyby was too distant for a body of Gaspra's small size to noticeably affect Galileo's trajectory, so no information on Gaspra's mass was obtained.

Gaspra's surface area has been calculated at about 525 km² , which, for comparison, is about half the land area of Hong Kong.

Exploration

Gaspra was discovered by Russian astronomer G. N. Neujmin in 1916. Neujmin named it after Gaspra, a Black Sea retreat that was visited by his contemporaries, such as Gorky and Tolstoy.

Galileo flew by Gaspra on 29 October, 1991, passing within 1,600 kilometers at a relative speed of about 8 kilometers per second (18,000 mph). 57 images were returned to Earth, the closest taken from a distance of 5300 km. The best images have a resolution of about 54 meters/pixel. The area around the southern pole was not seen during the flyby, but the remaining 80% of the asteroid was imaged .

Because Gaspra's position was only known to within about 200 km before the encounter, and the camera's field of view was only about 5° across, Galileo would not know where to point to capture images of the asteroid once it was closer than 70,000 km. This would render the encounter not very interesting scientifically. To overcome this problem, a pioneering optical navigation campaign was implemented by the Galileo spacecraft team to reduce the uncertainty of Gaspra's position using images captured during the approach to Gaspra. This was spectacularly successful and allowed the spacecraft to obtain images from as close as 5300 km. At this closest range, the pointing was still not known quite accurately enough, but the camera actually took a 51 image mosaic so as to capture Gaspra on at least one image . Similar optical navigation techniques have been used on all spacecraft flybys of asteroids since.

ee also

* List of geological features on 951 Gaspra

References

External links

*
* [http://www.seds.org/nineplanets/nineplanets/gaspra.html short intro] : 2 photos
* [http://neo.jpl.nasa.gov/images/gaspra.html JPL images]


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