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110 Lydia
Main-belt asteroid
Main-belt asteroid
| Field | Value | |||||
|---|---|---|---|---|---|---|
| minorplanet | yes | |||||
| background | #D6D6D6 | |||||
| name | 110 Lydia | |||||
| image | 110Lydia (Lightcurve Inversion).png | |||||
| caption | Lightcurve-based 3D-model of Lydia | |||||
| discoverer | Alphonse Borrelly | |||||
| discovered | 19 April 1870 | |||||
| mpc_name | (110) Lydia | |||||
| alt_names | A870 HA; 1899 VA; | |||||
| pronounced | ||||||
| named_after | Lydia | |||||
| mp_category | {{Hlist | |||||
| epoch | 31 July 2016 (JD 2457600.5) | |||||
| orbit_ref | ||||||
| semimajor | 2.7325 AU | |||||
| perihelion | 2.51115 AU | |||||
| aphelion | 2.9539 AU | |||||
| eccentricity | 0.081021 | |||||
| period | 4.52 yr (1649.9 d) | |||||
| inclination | 5.9645° | |||||
| asc_node | 56.871° | |||||
| arg_peri | 283.499° | |||||
| mean_anomaly | 348.344° | |||||
| avg_speed | 17.99 km/s | |||||
| dimensions | {{Ubl | |||||
| {{val | 86.09 | 2.0 | ul | km}} | ||
| 86.090 km<ref name | "Delbo2009"/ | |||||
| mass | ||||||
| surface_grav | ||||||
| escape_velocity | 0.0455 km/s | |||||
| rotation | {{Ubl | |||||
| {{Convert | 10.927 | h | d | abbr | on | lk=on}} |
| 10.9258 hours<ref name | "Durech2007"/ | |||||
| spectral_type | {{Ubl | |||||
| Xk (DeMeo et al.)<ref name | "DeMeo2011"/ | |||||
| abs_magnitude | 7.80 | |||||
| albedo | {{Ubl | |||||
| <ref name | "JPL"/ | |||||
| 0.181<ref name | "Delbo2009"/ | |||||
| single_temperature | ~168 K | |||||
| mean_motion | / day | |||||
| observation_arc | 145.80 yr (53,255 d) | |||||
| uncertainty | 0 | |||||
| tisserand | 3.341 |
| Main belt | Lydia family | | 86.090 km | 10.927 h | 10.9258 hours | M (Tholen) | X (Bus) | Xk (DeMeo et al.) | | 0.181
110 Lydia is a large belt asteroid with an M-type spectrum, and thus may be metallic in composition, consisting primarily of nickel-iron. It was discovered by French astronomer Alphonse Borrelly on 19 April 1870 and was named for Lydia, the Asia Minor country populated by Phrygians. The Lydia family of asteroids is named after it.
Observations made during 1958–1959 at the McDonald Observatory and in 1969 at the Kitt Peak National Observatory found an uneven light curve with a period of 10.9267 hours. In the late 1990s, a network of astronomers worldwide used light curves to derive spin states and shape models of 10 new asteroids, including (110) Lydia. They obtained a period of 10.92580 hours, with the brightness varying by no more than 0.2 in magnitude.
In the Tholen classification system, it is categorized as an M-type asteroid, while the Bus asteroid taxonomy system lists it as an Xk asteroid. Absorption features in the near infrared are attributed to low-iron, low-calcium orthopyroxene minerals. Water content on the surface is estimated at 0.14–0.27 by mass fraction (wt%). Measurements of the thermal inertia of 110 Lydia give a value between 70 and 200 J·m−2·K−1·s−1/2, compared to 50 for lunar regolith and 400 for coarse sand in an atmosphere. It is a likely interloper in the Padua family of minor planets that share similar dynamic properties.
Lydia occulted a dim star on 18 September 1999.
References
References
- Noah Webster (1884) ''A Practical Dictionary of the English Language''
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