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24 Themis

Main-belt Themistian asteroid

Field	Value
minorplanet	yes
background	#D6D6D6
name	24 Themis
image	24 Themis VLT (2021), deconvolved.pdf
caption	Deconvolved image of Themis by VLT-SPHERE
discoverer	Annibale de Gasparis
discovered	5 April 1853
pronounced
mpc_name	(24) Themis
alt_names	1947 BA; 1955 OH
named_after	Themis
adjectives	Themistian
mp_category	Main belt (Themis)
orbit_ref	{{cite web
date	12 December 2024
title	JPL Small-Body Database Browser: 24 Themis
url	http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=Themis
access-date	22 December 2024}}
epoch	17.0 October 2024 (JD 2460600.5)
semimajor	470.2 million km
(3.143 AU)
perihelion	415.9 million km
(2.780 AU)
aphelion	524.4 Gm
(3.505 AU)
eccentricity	0.1153
period	2035 d (5.57 yr)
inclination	0.7368°
asc_node	36.39°
arg_peri	109.0°
moid	1.79422 AU
jupiter_moid	1.50402 AU
mean_anomaly	346.1°
tisserand	3.199
dimensions
mean_diameter
{{cite journal
last	Baer
first	James
author-link	James Baer
author2	Steven R. Chesley
author2-link	Steven R. Chesley
title	Astrometric masses of 21 asteroids, and an integrated asteroid ephemeris
journal	Celest. Mech. Dyn. Astron.
volume	100
issue	2008
pages	27–42
publisher	Springer Science+Business Media B.V. 2007
date	25 June 1999
doi	10.1007/s10569-007-9103-8	bibcode = 2008CeMDA.100...27B	doi-access = free
flattening	0.24
mass
{{cite journal
last	Michalak
first	G.
title	Determination of asteroid masses
journal	Astronomy & Astrophysics
volume	374
issue	2
pages	703–711
date	2001
doi	10.1051/0004-6361:20010731
bibcode	2001A&A...374..703M
doi-access	free
}}</ref>{{efn	name	Themismass	1= = }}
density

surface_grav
escape_velocity
rotation	(8 h 22 min)

axial_tilt	18°
spectral_type	C/B (B-V=0.68)
abs_magnitude	7.24
7.08
pole_ecliptic_lat
pole_ecliptic_lon
albedo	0.060 (calculated)
0.067

|access-date=22 December 2024}} (3.143 AU) (2.780 AU) (3.505 AU) {{cite journal | author-link = James Baer |author2-link= Steven R. Chesley

{{cite journal |doi-access=free

7.08 0.067

24 Themis is one of the largest asteroids in the asteroid belt. At roughly 200 km in diameter, it is also the largest member of the Themistian family. It was discovered by Annibale de Gasparis on 5 April 1853. It is named after Themis, the personification of natural law and divine order in Greek mythology.

Discovery and observations

24 Themis was discovered on 5 April 1853 by Annibale de Gasparis of Naples, though it was given its name by fellow Italian astronomer Angelo Secchi. The asteroid was named after Themis, the Greek goddess of law. Gravitational perturbations in the orbit of Themis were used to calculate the mass of Jupiter as early as 1875.

On 24 December 1975, 24 Themis had a close encounter with 2296 Kugultinov with a minimum distance of 0.016 AU. By analyzing the perturbation of Kugultinov's orbit due to the gravitational pull of Themis, the mass of Themis was determined to be approximately solar masses ( Earth masses).

Orbit and rotation

Themis is in an elliptical orbit around the Sun with an eccentricity of 0.1306 and an inclination of 0.76°. It has an orbital period of 5.54 years. The distance between Themis and the Sun ranges from 2.71 AU at perihelion and 3.55 AU at aphelion, with a mean distance of 3.1302 AU. Themis is part of the Themis family of asteroids, which is located in the outer part of the main belt. The family consists of a core of large objects surrounded by a cloud of smaller objects; 24 Themis is a member of the core.{{Cite encyclopedia

Surface materials

Ice

On 7 October 2009, the presence of water ice was confirmed on the surface of this asteroid using NASA’s Infrared Telescope Facility.{{cite magazine | access-date=9 October 2009 | archive-url= https://web.archive.org/web/20091012075224/http://www.sciencenews.org/view/generic/id/48174/title/Ice_confirmed_on_an_asteroid| archive-date= 12 October 2009 | url-status= live}}{{cite web | access-date = 11 October 2009 | archive-url= https://web.archive.org/web/20091011051040/http://spacefellowship.com/2009/10/08/more-water-out-there-ice-found-on-an-asteroid/| archive-date= 11 October 2009 | url-status= live}} The surface of the asteroid appears completely covered in ice. As this ice layer is sublimated, it may be getting replenished by a reservoir of ice under the surface.

Scientists hypothesize that some of the first water brought to Earth was delivered by asteroid impacts after the collision that produced the Moon. The presence of ice on 24 Themis supports this theory. Because of its proximity to the Sun, the widespread presence of ice on the surface of 24 Themis is somewhat unexpected. The surface ice may be replenished by a subsurface reservoir of ice or impact gardening—a phenomenon in which impact events overturn surface material at a rate of 1 m/ Gyr (billion years).

An alternative mechanism to explain the presence of water ice on 24 Themis is similar to the hypothesized formation of water on the surface of the Moon by solar wind. Trace amounts of water would be continuously produced by high-energy solar protons impinging oxide minerals present at the surface of the asteroid. The hydroxyl surface groups (S–OH) formed by the collision of protons () with oxygen atoms present at oxide surface (S=O) can further be converted in water molecules () adsorbed onto the oxide minerals surface. The chemical rearrangement supposed at the oxide surface could be schematically written as follows:

:2 S-OH → S=O + S + or,

:2 S-OH → S–O–S + where S represents the oxide surface.

Organics

Organic compounds were also detected on the surface of Themis in the form of tholins, high-molecular weight organics found in the outer solar system, distinguished by a brown or reddish color in optical spectra. Compounds found in the spectra of Themis include ice tholin (the residual of an irradiated mixture of water ice and ethane), asphaltite, carbonaceous meteorite material, and polycyclic aromatic hydrocarbons.

Notes

References

Noah Webster (1884) ''A Practical Dictionary of the English Language''
''Astronomy now'', Volume 22 (2008)
{{OED. Themistian
P. Vernazza et al. (2021) VLT/SPHERE imaging survey of the largest main-belt asteroids: Final results and synthesis. ''Astronomy & Astrophysics'' 54, A56
Schmadel, Lutz D.. (2003). "Dictionary of minor planet names". Springer.
(18 November 1875). "Our Astronomical Column". Nature.
García, A. López. (1997). "Using Close Encounters of Minor Planets for the Improvement of their Masses". [[Kluwer Academic Publishers]].
(2011). "The Astronomical Almanac". United States Naval Observatory and United Kingdom Hydrographic Office.
(2010). "Water ice and organics on the surface of the asteroid 24 Themis". [[Nature (journal).
(2010). "Detection of ice and organics on an asteroidal surface". [[Nature (journal).
Emery, Joshua P.. "Advances in Solar System Science: Research Enabled by 2.4 – 25 μm Spectroscopy with SOFIA".

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