Minorplanet: | yes |
Background: |
|
102 Miriam | |
Discovery Ref: | [1] |
Discoverer: | Christian Heinrich Friedrich Peters |
Discovery Site: | Litchfield Observatory |
Discovered: | 22 August 1868 |
Mpc Name: | (102) Miriam |
Alt Names: | A868 QA, 1944 FC 1972 PC |
Named After: | Miriam |
Mp Category: | main belt[2] |
Orbit Ref: | [3] |
Epoch: | 31 July 2016 (JD 2457600.5) |
Aphelion: | 3.33419abbr=onNaNabbr=on |
Perihelion: | 1.98782AU |
Semimajor: | 2.66101AU |
Eccentricity: | 0.252981 |
Period: | 4.34 yr (1585.5 d) |
Inclination: | 5.17832° |
Asc Node: | 210.856° |
Mean Anomaly: | 23.9115° |
Arg Peri: | 147.247° |
Dimensions: | 96 × 62 km |
Mean Diameter: | |
Mass: | (9.95 ± 4.64/2.6) kg |
Density: | 3.409 ± 1.589/0.89 g/cm3 |
Rotation: | 23.613abbr=onNaNabbr=on 15.789 h[4] |
Albedo: | |
Spectral Type: | P (Tholen classification) C (SMASSII classification) |
Abs Magnitude: | 9.51 9.26 |
Mean Motion: | / day |
Observation Arc: | 145.65 yr (53198 d) |
Uncertainty: | 0 |
Moid: | 0.98566AU |
Jupiter Moid: | 2.13185AU |
Tisserand: | 3.333 |
102 Miriam is a moderately large, very dark main belt asteroid. It was discovered by C. H. F. Peters on August 22, 1868, from the Litchfield Observatory.[1]
Peters named the asteroid after Miriam, the sister of Moses in the Old Testament. This caused some controversy, because at the time, asteroids were expected to be named after mythological figures, and devout Christians and Jews would not regard Biblical figures as such. According to fellow astronomer Edward S. Holden, Peters deliberately chose a name from the Bible so as to annoy an overly pious theology professor of his acquaintance.[5]
Initially classified as a D-type asteroid, it was later classed as C-type based upon a broad absorption feature below 4,000 Å, most likely due to phyllosilicates on the surface. An occultation of the star HIP 37136 by 102 Miriam on February 15, 2000 was observed from multiple stations, with the chords yielding an estimated elliptical cross-section of .
Photometric observations of this asteroid during 2007 at the Organ Mesa Observatory in Las Cruces, New Mexico, were used to create a light curve plot. This showed a rotation period of 23.613 ± 0.001 hours and a brightness variation of 0.12 ± 0.02 magnitude. The curve shows three maxima and minima during each cycle. This value for the period differs from the 15.789 hour estimate produced in a 2008 study.[4]