 Comet Reinmuth 2 photographed from theZwicky Transient Facility on 15 November 2022 | |
| Discovery | |
|---|---|
| Discovered by | Karl Reinmuth |
| Discovery date | 10 September 1947 |
| Designations | |
| P/1947 R1, P/1953 N1 | |
| |
| Orbital characteristics[2][3] | |
| Epoch | 13 September 2023 (JD 2460200.5) |
| Observation arc | 76.49 years |
| Number of observations | 2,443 |
| Aphelion | 5.264 AU |
| Perihelion | 2.112 AU |
| Semi-major axis | 3.688 AU |
| Eccentricity | 0.42726 |
| Orbital period | 7.082 years |
| Inclination | 5.897° |
| 286.43° | |
| Argument of periapsis | 58.024° |
| Mean anomaly | 70.704° |
| Last perihelion | 23 April 2022 |
| Next perihelion | 20 May 2029[1] |
| TJupiter | 2.925 |
| EarthMOID | 1.113 AU |
| JupiterMOID | 0.523 AU |
| Physical characteristics[2] | |
Mean radius | 1.62 km (1.01 mi)[4] |
| (V–R) =0.62±0.08[4] | |
| Comet total magnitude (M1) | 14.0 |
44P/Reinmuth orReinmuth 2 is aJupiter-family comet that is greatly perturbed by the gas giantJupiter.[5] The diameter of this comet is estimated at 3.22 km (2.00 mi)[4] and its absolute magnitude at 14.[2]
Reinmuth was discovered during a survey of small Solar System bodies with the 40 cm Bruce telescope at the LSW-Heidelberg Observatory in Heidelberg, Germany. The absolute magnitude of the comet was estimated by Karl Reinmuth to be 13, two orders of magnitude smaller than the current estimate.[5]. This comet was found to be aperiodic comet by Leland E. Cunningham inBerkeley, California, who calculated an elliptical orbit with a 7.12-year orbital period. He also predicted that it would come to perihelion again on 3 October 1947. Later, this was revised to 6.59 years and August 19, 1947. The comet ended up reaching perihelion nearly one month after the expected date, and the calculations of its orbit was then refined further until the values were correct.[5]
Reinmuth 2 makes many close approaches to Jupiter. These close approaches gradually change its orbit. For example, on 16 July 2003, comet Reinmuth 2 came within 0.74 AU of Jupiter.[2] This increased its perihelion from 1.89 to 2.11 AU and its orbital period from 6.63 to 7.07 years.[5] On 11 February 2039, Reinmuth will come within 0.52 AU of Jupiter, which will raise its perihelion to 2.44 AU and its orbital period to 7.78 years.[5] On 21 July 2063 and 1 March 2146, Reinmuth will come 0.43 AU and 0.51 AU, respectively.[2] Close approaches like these could raise Reinmuth's perihelion until it ceases to become a comet.
| Numbered comets | ||
|---|---|---|
| Previous 43P/Wolf–Harrington | 44P/Reinmuth | Next 45P/Honda–Mrkos–Pajdušáková |
.png)
