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165 Loreley

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165 Loreley
A three-dimensional model of 165 Loreley based on its light curve.
Discovery
Discovered byC. H. F. Peters
Discovery date9 August 1876
Designations
(165) Loreley
Pronunciation/ˈlɔːrəl/[1]
A876 PA; 1948 QS;
1959 PB; 1960 WG
main belt
Orbital characteristics[2]
Epoch 31 July 2016 (JD 2457600.5)
Uncertainty parameter 0
Observation arc139.51 yr (50957 d)
Aphelion3.3904 AU (507.20 Gm)
Perihelion2.8599 AU (427.83 Gm)
3.1251 AU (467.51 Gm)
Eccentricity0.084887
5.525 yr (2,017.9 d)
125.88°
0° 10m 42.24s / day
Inclination11.224°
302.53°
347.29°
Earth MOID1.84454 AU (275.939 Gm)
Jupiter MOID1.81383 AU (271.345 Gm)
TJupiter3.180
Physical characteristics
Dimensions180.083±2.064 km[2]
164.92 ± 8.14 km[3]
Mass(1.91±0.19)×1019 kg[3]
Mean density
8.14 ± 1.46 g/cm3[3]
7.226 h (0.3011 d)[2]
7.22667 h[4]
0.0642±0.004
7.65,[2] 7.76[5]

165 Loreley is a large main-belt asteroid that was discovered by C. H. F. Peters on August 9, 1876, in Clinton, New York and named after the Lorelei, a figure in German folklore. It is orbiting the Sun at a distance of 3.125 AU and a low eccentricity of 0.08. The orbital plane is inclined at an angle of 11.2° to the plane of the ecliptic.[2]

In the late 1990s, a network of astronomers worldwide gathered light curve data that was ultimately used to derive the spin states and shape models of 10 new asteroids, including (165) Loreley. The light curve of this asteroid varies by no more than 0.2 in magnitude, while the derived shape model shows multiple flat spots on the surface.[4][6] The asteroid has an oblate shape with a size ratio of 1.26 ± 0.08 between the major and minor axes, as determined from the W. M. Keck Observatory.[7]

Between 2003 and 2021, 165 Loreley has been observed to occult thirteen stars.

References

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  1. ^ "Lorelei". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  2. ^ a b c d e Yeomans, Donald K., "165 Loreley", JPL Small-Body Database Browser, NASA Jet Propulsion Laboratory, retrieved 12 May 2016.
  3. ^ a b c Carry, B. (December 2012), "Density of asteroids", Planetary and Space Science, vol. 73, pp. 98–118, arXiv:1203.4336, Bibcode:2012P&SS...73...98C, doi:10.1016/j.pss.2012.03.009. See Table 1.
  4. ^ a b Ďurech, J.; et al. (April 2007), "Physical models of ten asteroids from an observers", Astronomy and Astrophysics, vol. 465, no. 1, pp. 331–337, Bibcode:2007A&A...465..331D, doi:10.1051/0004-6361:20066347.
  5. ^ Warner, Brian D. (December 2007), "Initial Results of a Dedicated H-G Project", The Minor Planet Bulletin, vol. 34, pp. 113–119, Bibcode:2007MPBu...34..113W.
  6. ^ Durech, J.; et al. (November 2006), "Asteroid brightness and geometry", VizieR On-line Data Catalog: J/A+A/465/331, Bibcode:2006yCat..34650331D.
  7. ^ Marchis, F.; et al. (November 2006), "Shape, size and multiplicity of main-belt asteroids. I. Keck Adaptive Optics survey", Icarus, vol. 185, no. 1, pp. 39–63, Bibcode:2006Icar..185...39M, doi:10.1016/j.icarus.2006.06.001, PMC 2600456, PMID 19081813.
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