C/2017 K2 PANSTARRS
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Comet C/2017 K2 was discovered on 21 May 2017 by the Panoramic Survey Telescope and Rapid Response System (Pan-STARRS) in Hawaii when it was 16.1 au from the Sun. Later, almost twenty pre-discovery measurements dating back to 2013 May 12 were found, the first series of measurements was taken at the heliocentric distance of almost 24 au. These prediscovery data series are separated by one large gap
of about 2.5 yr and two shorter gaps of about six months and eight months, respectively. Since the discovery the comet has been observed almost continuously (and is still observable).
Comet will have its closest approach to the Earth on 14 July 2022 (1.81 au), about 5 months before its perihelion passage (1.80 au from the Sun on 19 December 2022).
Solutions given here are based on pre-perihelion data and different data-arcs, for more see respective solutions; the longest data arc is spanning over 8.90 yr in a range of heliocentric distances from 23.74 au to 3.52 au (7 April 2022)
More details in Królikowska and Dybczyński 2018 and Dybczyński and Królikowska 2022 (or Dybczyński and Królikowska 2022).
Comet will have its closest approach to the Earth on 14 July 2022 (1.81 au), about 5 months before its perihelion passage (1.80 au from the Sun on 19 December 2022).
Solutions given here are based on pre-perihelion data and different data-arcs, for more see respective solutions; the longest data arc is spanning over 8.90 yr in a range of heliocentric distances from 23.74 au to 3.52 au (7 April 2022)
More details in Królikowska and Dybczyński 2018 and Dybczyński and Królikowska 2022 (or Dybczyński and Królikowska 2022).
| solution description | ||
|---|---|---|
| number of observations | 7735 | |
| data interval | 2013 05 12 – 2022 04 07 | |
| data type | observed only before perihelion (PRE) | |
| data arc selection | entire data set (STD) | |
| range of heliocentric distances | 23.74 au – 3.52au | |
| type of model of motion | NC - non-gravitational orbits for symmetric CO-g(r)-like function | |
| data weighting | YES | |
| number of residuals | 15166 | |
| RMS [arcseconds] | 0.33 | |
| orbit quality class | 1a+ | |
| orbital elements (heliocentric ecliptic J2000) | ||
|---|---|---|
| Epoch | 2018 11 18 | |
| perihelion date | 2022 12 20.65925641 | ± 0.00032127 |
| perihelion distance [au] | 1.80554850 | ± 0.00000183 |
| eccentricity | 1.00035715 | ± 0.00000052 |
| argument of perihelion [°] | 236.079789 | ± 0.000049 |
| ascending node [°] | 88.257337 | ± 0.000013 |
| inclination [°] | 87.544006 | ± 0.000004 |
| reciprocal semi-major axis [10-6 au-1] | -197.81 | ± 0.29 |
Upper panel: Time distribution of positional observations with corresponding heliocentric (red curve) and geocentric (green curve) distance at which they were taken. The horizontal dotted line shows the perihelion distance for a given comet whereas vertical dotted line — the moment of perihelion passage.
Middle panel(s): O-C diagram for a given solution (sometimes in comparison to another solution available in CODE), where residuals in right ascension are shown using magenta dots and in declination by blue open circles.
Lowest panel: Relative weights for a given data set(s).
Middle panel(s): O-C diagram for a given solution (sometimes in comparison to another solution available in CODE), where residuals in right ascension are shown using magenta dots and in declination by blue open circles.
Lowest panel: Relative weights for a given data set(s).
| non-gravitational parameters | ||
|---|---|---|
| A1 [10-8au/day2] | 3.5889 | ± 0.1322 |
| A2 [10-8au/day2] | -1.6409 | ± 0.0649 |
| A3 [10-8au/day2] | 0.61625 | ± 0.03754 |
| m | -2.00 | |
| n | 3.000 | |
| k | -2.6000 | |
| r0 [au] | 10.000 | |
| α | 0.0100 | |