The Great Comet of 1819, officially designated as C/1819 N1, also known as Comet Tralles, was an exceptionally bright and easily visible comet, approaching an apparent magnitude of 1–2, discovered July 1, 1819 by the German astronomer Johann Georg Tralles in Berlin. It was the first comet analyzed using polarimetry, by French mathematician François Arago.[3][4]
Discovery | |
---|---|
Discovered by | Johann Georg Tralles |
Discovery date | 1 July 1819 |
Designations | |
1819 II Great Comet of 1819 | |
Orbital characteristics[2] | |
Epoch | 18 June 1831 (JD 2385613.5) |
Perihelion | 0.3415 AU |
Eccentricity | ~1.000 |
Inclination | 80.752° |
276.235° | |
Argument of periapsis | 13.416° |
Last perihelion | 28 June 1819 |
Physical characteristics | |
1–2 (1819 apparition) |
Discovery
editOn July 1, 1819, Johann Georg Tralles in Berlin observed a brilliant comet low in the sky during the evening twilight. It was confirmed the next night by the astronomer Johann Elert Bode, also in Berlin.[3]
Observations
editOn July 2, Tralles found the comet to have a coma of 40″. On July 3, Friedrich Georg Wilhelm von Struve measured the nucleus at 8″ with a tail of several degrees. Heinrich Wilhelm Matthias Olbers reported that the nucleus had an apparent magnitude of 1–2 and a tail about 7–8° long. The comet was last sighted by Struve on October 25.[3]
Also on July 3, François Arago used a polarimeter of his own invention to analyze the light from the comet's tail and discovered that it was polarized. He then observed the nearest star, Capella, which did not show polarized light. This indicated that some light from the comet's tail was reflected from the sun.[3] This marked the first polarimetric observation of a comet.[4]
Transit of the Sun
editAfter the orbital elements of the comet were calculated by Olbers, he discovered that a transit of the Sun by the comet had occurred on June 26, days before its first observations. He reported this to Bode on July 27.[5] After this announcement many Sun observers searched their notes to see if they had noted something unusual that day. Johann Wilhelm Pastorff noted that he saw on that day a round nebulousity with a bright spot near its center and made a sketch of it. Canon Stark from Augsburg also noted in Meteorologisches Jahrbuch that he saw an ill-defined small spot in the Sun at 7:15 A.M. on June 26, 15' 25" from the west limb of the Sun, that wasn't present at noon.[5] John Russell Hind noted that the positions given by Johann Wilhelm Pastorff were considerably different than the expected location of the comet, and also considered it improbable that the comet would resemble Pastorff's sketch. On the other hand, he concluded that Canon Stark perhaps did observe the comet, although the mentioned position was a bit off.[5] In a 2017 paper, astronomer Richard L. Branham Jr. agreed that Canon Stark likely did see the transit.[6]
Orbit
editOrbital elements for the comet were calculated by several astronomers.[7] The orbit is classified as parabolic and is nearly perpendicular to Earth's orbital plane, with an inclination of 80°. It passed closest to the Earth on June 25 at a distance of 0.67 AU (100,000,000 km; 62,000,000 mi) and closest to the Sun on June 28 at 0.34 AU (51,000,000 km; 32,000,000 mi).[2]
The orbit of the comet and its transit of the Sun were later analyzed by astronomer John Russell Hind.[5]
In 2016 the orbit was recalculated based on a total of 692 observations of the comet taken in 1819, with the resulting conclusion that the comet will not return for over 3,000 years and represents no threat to the Earth, and that Near Eastern records around 2550 BCE may be found to mention its earlier passage.[6]
In literature
editThe comet was widely seen and noted by people who were not astronomers.[3] Poet John Keats noted how he and his wife Fanny had stared at the comet.[8] Historian Nathaniel Philbrick writes about the great comet seen in July 1819 by the people on the island of Nantucket, Massachusetts in his 2000 book, In the Heart of the Sea.[9] The comet was observed by the Stephen Long expedition to the Great Plains from near present day Jefferson City, Missouri.[10]
References
edit- ^ Kendall, E. Otis (1850). Uranography; or, a Description of the Heavens. p. 286.
- ^ a b "C/1819 N1 (Great comet): Orbital Elements". NASA.
- ^ a b c d e Kronk, Gary W. (2003). "C/1819 N1 (Great Comet or Tralles)". Cometography: A Catalog of Comets. Vol. 2: 1800–1899. Cambridge University Press. pp. 47–53. ISBN 0-521-58505-8.
- ^ a b Kolokolova, Ludmilla (2015). Polarimetry of Stars and Planetary Systems. Cambridge University Press. p. 380. ISBN 978-1-107-04390-9.
- ^ a b c d Hind, J. R. (1876). "On the Transit across the Sun's Disk of the Second or Great Comet of 1819". Monthly Notices of the Royal Astronomical Society. XXXVI (7): 309–313. Bibcode:1876MNRAS..36..309H. doi:10.1093/mnras/36.7.309.
- ^ a b Branham, R. L. Jr. (1 April 2017). "A new Orbit for Comet C/1819 N1 (Great Comet of 1819)" (PDF). Revista Mexicana de Astronomía y Astrofísica. 53: 53–57. Bibcode:2017RMxAA..53...53B. ISSN 0185-1101.
- ^ Henry A. Peck (1906). "Definitive Orbit of Comet 1819 II" (PDF). The Astronomical Journal. XXV (584–585): 61–71. Bibcode:1906AJ.....25...61P. doi:10.1086/103688.
- ^ Beachy-Quick, Dan (2013). A Brighter Word Than Bright: Keats at Work. University of Iowa. p. 132. ISBN 978-1-60938-204-9.
- ^ Philbrick, Nathaniel (2000). In the Heart of the Sea: The Tragedy of the Whaleship Essex. Penguin Books. pp. 3–4. ISBN 0-14-100182-8.
- ^ Long, Stephen Harriman (1988). Benson, Maxine (ed.). From Pittsburgh to the Rocky Mountains: Major Stephen Long's expedition, 1819–1820. Fulcrum, Inc. p. 64. ISBN 1-55591-022-X.