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Pegasus (constellation)

March 27, 2023

For other uses, see Pegasus (disambiguation).

Pegasus is a constellation in the northern sky, named after the winged horse Pegasus in Greek mythology. It was one of the 48 constellations listed by the 2nd-century astronomer Ptolemy, and is one of the 88 constellations recognised today.

Pegasus
Constellation
AbbreviationPeg
GenitivePegasi
Pronunciation/ˈpɛɡəsəs/,
genitive /ˈpɛɡəs/
Symbolismthe Winged Horse
Right ascension21h 12.6m to 00h 14.6m [1]
Declination+2.33° to +36.61°[1]
QuadrantNQ4
Area1121 sq. deg. (7th)
Main stars9, 17
Bayer/Flamsteed
stars		88
Stars with planets12
Stars brighter than 3.00m5
Stars within 10.00 pc (32.62 ly)3
Brightest starε Peg (Enif) (2.38m)
Messier objects1
Meteor showersJuly Pegasids
Bordering
constellations		Andromeda
Lacerta
Cygnus
Vulpecula
Delphinus
Equuleus
Aquarius
Pisces
Visible at latitudes between +90° and −60°.
Best visible at 21:00 (9 p.m.) during the month of October.

With an apparent magnitude varying between 2.37 and 2.45, the brightest star in Pegasus is the orange supergiant Epsilon Pegasi, also known as Enif, which marks the horse's muzzle. Alpha (Markab), Beta (Scheat), and Gamma (Algenib), together with Alpha Andromedae (Alpheratz) form the large asterism known as the Square of Pegasus. Twelve star systems have been found to have exoplanets. 51 Pegasi was the first Sun-like star discovered to have an exoplanet companion.

Mythology

The Babylonian constellation IKU (field) had four stars of which three were later part of the Greek constellation Hippos (Pegasus).[2] Pegasus, in Greek mythology, was a winged horse with magical powers. One myth regarding his powers says that his hooves dug out a spring, Hippocrene, which blessed those who drank its water with the ability to write poetry. Pegasus was born when Perseus cut off the head of Medusa, who was impregnated by the god Poseidon. He was born with Chrysaor from Medusa's blood.[3] Eventually, it became the horse for Bellerophon, who was asked to kill the Chimera and succeeded with the help of Athena and Pegasus. Despite this success, after the death of his children, Bellerophon asked Pegasus to take him to Mount Olympus. Though Pegasus agreed, he plummeted back to Earth after Zeus either threw a thunderbolt at him or sent a gadfly to make Pegasus buck him off.[4][5] In ancient Persia, Pegasus was depicted by al-Sufi as a complete horse facing east, unlike most other uranographers, who had depicted Pegasus as half of a horse, rising out of the ocean. In al-Sufi's depiction, Pegasus's head is made up of the stars of Lacerta the lizard. Its right foreleg is represented by β Peg and its left foreleg is represented by η Peg, μ Peg, and λ Peg; its hind legs are marked by 9 Peg. The back is represented by π Peg and μ Cyg, and the belly is represented by ι Peg and κ Peg.[4]

In Chinese astronomy, the modern constellation of Pegasus lies in The Black Tortoise of the north (北方玄武), where the stars were classified in several separate asterisms of stars.[6] Epsilon and Theta Pegasi are joined with Alpha Aquarii to form Wei 危 "rooftop", with Theta forming the roof apex.[7]

In Hindu astronomy, the Great Square of Pegasus contained the 26th and 27th lunar mansions. More specifically, it represented a bedstead that was a resting place for the Moon.[4]

For the Warrau and Arawak peoples in Guyana the stars in the Great Square, corresponding to parts of Pegasus and of Andromeda, represented a barbecue, taken up to the sky by the seven hunters of the myth of Siritjo.[4][8]

Characteristics

Covering 1121 square degrees, Pegasus is the seventh-largest of the 88 constellations. Pegasus is bordered by Andromeda to the north and east, Lacerta to the north, Cygnus to the northwest, Vulpecula, Delphinus and Equuleus to the west, Aquarius to the south and Pisces to the south and east. The three-letter abbreviation for the constellation, as adopted by the IAU in 1922, is "Peg".[9] The official constellation boundaries, as set by Belgian astronomer Eugène Delporte in 1930, are defined as a polygon of 35 segments. In the equatorial coordinate system the right ascension coordinates of these borders lie between 21h 12.6m and 00h 14.6m , while the declination coordinates are between 2.33° and 36.61°.[1] Its position in the Northern Celestial Hemisphere means that the whole constellation is visible to observers north of 53°S.[10][a]

 
Pegasus with the foal Equuleus next to it, as depicted in Urania's Mirror, a set of constellation cards published in London c.1825. The horses appear upside-down in relation to the constellations around them.

Pegasus is dominated by a roughly square asterism, although one of the stars, Delta Pegasi or Sirrah, is now officially considered to be Alpha Andromedae, part of Andromeda, and is more usually called "Alpheratz". Traditionally, the body of the horse consists of a quadrilateral formed by the stars α Peg, β Peg, γ Peg, and α And. The front legs of the winged horse are formed by two crooked lines of stars, one leading from η Peg to κ Peg and the other from μ Peg to 1 Pegasi. Another crooked line of stars from α Peg via θ Peg to ε Peg forms the neck and head; ε is the snout.

Features

 
The constellation Pegasus as it can be seen by the naked eye

Stars

See also: List of stars in Pegasus

Bayer catalogued what he counted as 23 stars in the constellation, giving them the Bayer designations Alpha to Psi. He saw Pi Pegasi as one star, and was uncertain of its brightness, wavering between magnitude 4 and 5. Flamsteed labelled this star 29 Pegasi, but Bode concluded that the stars 27 and 29 Pegasi should be Pi1 and Pi2 Pegasi and that Bayer had seen them as a single star.[11] Flamsteed added lower case letters e through to y, omitting A to D as they had been used on Bayer's chart to designate neighbouring constellations and the equator.[12] He numbered 89 stars (now with Flamsteed designations), though 6 and 11 turned out to be stars in Aquarius.[13] Within the constellation's borders there are 177 stars of apparent magnitude 6.5 or greater.[b][10]

Epsilon Pegasi, also known as Enif, marks the horse's muzzle. The brightest star in Pegasus, is an orange supergiant of spectral type K21b that is around 12 times as massive as the Sun and is around 690 light-years distant from Earth.[15] It is an irregular variable, its apparent magnitude varying between 2.37 and 2.45.[16] Lying near Enif is AG Pegasi, an unusual star that brightened to magnitude 6.0 around 1885 before dimming to magnitude 9. It is composed of a red giant and white dwarf, estimated to be around 2.5 and 0.6 times the mass of the Sun respectively. With its outburst taking over 150 years, it has been described as the slowest nova ever recorded.[17]

Three stars with Bayer designations that lie within the Great Square are variable stars. Phi and Psi Pegasi are pulsating red giants, while Tau Pegasi (the proper name is Salm[18]), is a Delta Scuti variable—a class of short period (six hours at most) pulsating stars that have been used as standard candles and as subjects to study astroseismology.[19] Rotating rapidly with a projected rotational velocity of 150 km s−1, Kerb is almost 30 times as luminous as the Sun and has a pulsation period of 56.5 minutes. With an outer atmosphere at an effective temperature of 7,762 K, it is a white star with a spectral type of A5IV.[20]

Zeta, Xi, Rho and Sigma Pegasi mark the horse's neck.[21] The brightest of these with a magnitude of 3.4 is Zeta, also traditionally known as Homam. Lying seven degrees southwest of Markab, it is a blue-white main sequence star of spectral type B8V located around 209 light-years distant.[22] It is a slowly pulsating B star that varies slightly in luminosity with a period of 22.952 ± 0.804 hours, completing 1.04566 cycles per day.[23] Xi lies 2 degrees northeast, and is a yellow-white main sequence star of spectral type F6V that is 86% larger and 17% more massive that the Sun, and radiate 4.5 times the solar luminosity.[24] It has a red dwarf companion that is 192.3 au distant.[25] If (as is likely) the smaller star is in orbit around the larger star, then it would take around 2000 years to complete a revolution.[26] Theta Pegasi marks the horse's eye.[21] Also known as Biham, it is a 3.43-magnitude white main sequence star of spectral type A2V, around 1.8 times as massive, 24 times as luminous, and 2.3 times as wide as the Sun.[27]

Alpha (Markab), Beta (Scheat), and Gamma (Algenib), together with Alpha Andromedae (Alpheratz or Sirrah) form the large asterism known as the Square of Pegasus. The brightest of these, Alpheratz was also known as both Delta Pegasi and Alpha Andromedae before being placed in Andromeda in 1922 with the setting of constellation boundaries. The second brightest star is Scheat, a red giant of spectral type M2.5II-IIIe located around 196 light-years away from Earth.[28] It has expanded until it is some 95 times as large, and has a total luminosity 1,500 times that of the Sun.[29] Beta Pegasi is a semi-regular variable that varies from magnitude 2.31 to 2.74 over a period of 43.3 days.[30] Markab and Algenib are blue-white stars of spectral types B9III and B2IV located 133 and 391 light-years distant respectively.[31][32] Appearing to have moved off the main sequence as their core hydrogen supply is being or has been exhausted, they are enlarging and cooling to eventually become red giant stars.[33][34] Markab has an apparent magnitude of 2.48,[31] while Algenib is a Beta Cephei variable that varies between magnitudes 2.82 and 2.86 every 3 hours 38 minutes, and also exhibits some slow pulsations every 1.47 days.[35]

Eta and Omicron Pegasi mark the left knee and Pi Pegasi the left hoof, while Iota and Kappa Pegasi mark the right knee and hoof.[21] Also known as Matar, Eta Pegasi is the fifth-brightest star in the constellation. Shining with an apparent magnitude of 2.94, it is a multiple star system composed of a yellow giant of spectral type G2 and a yellow-white main sequence star of spectral type A5V that are 3.2 and 2.0 times as massive as the Sun. The two revolve around each other every 2.24 years. Farther afield is a binary system of two G-type main sequence stars, that would take 170,000 years to orbit the main pair if they are in fact related.[36] Omicron Pegasi has a magnitude of 4.79. Located 300 ± 20 light-years distant from Earth,[37] it is a white subgiant that has begun to cool, expand and brighten as it exhausts its core hydrogen fuel and moves off the main sequence.[38] Pi1 and Pi2 Pegasi appear as an optical double to the unaided eye as they are separated by 10 arcminutes, and are not a true binary system.[39] Located 289 ± 8 light-years distant,[37] Pi1 is an ageing yellow giant of spectral type G6III, 1.92 times as massive and around 200 times as luminous as the Sun.[40] Pi2 is a yellow-white subgiant that is 2.5 times as massive as the Sun and has expanded to 8 times the Sun's radius and brightened to 92 times the Sun's luminosity. It is surrounded by a circumstellar disk spinning at 145 km a second,[39] and is 263 ± 4 light-years distant from Earth.[37]

IK Pegasi is a close binary comprising an A-type main-sequence star[41] and white dwarf[42] in very close orbit; the latter a candidate for a future type Ia supernova[43] as its main star runs out of core hydrogen fuel and expands into a giant and transfers material to the smaller star.

Twelve star systems have been found to have exoplanets. 51 Pegasi was the first Sun-like star discovered to have an exoplanet companion;[44] 51 Pegasi b (unofficially named Bellerophon,[45] officially named Dimidium[46]) is a hot Jupiter close to its sun, completing an orbit every four days. Spectroscopic analysis of HD 209458 b, an extrasolar planet in this constellation, has provided the first evidence of atmospheric water vapor beyond the solar system,[47][48][49] while extrasolar planets orbiting the star HR 8799 also in Pegasus are the first to be directly imaged.[50][51][52] V391 Pegasi is a hot subdwarf star that has been found to have a planetary companion.[53]

 
Pegasus from Al-Sufi's Book of Fixed Stars, dated 1009-10

Named stars

Name[18] Bayer designation Origin Meaning
Markab α Arabic the saddle of the horse
Scheat β Arabic the upper arm
Algenib γ Arabic the side / wing
Alpheratz δ
Enif ε Arabic nose
Homam ζ Arabic man of high spirit
Matar η Arabic lucky rain of shooting stars
Baham θ Arabic the livestocks
Sadalbari μ Arabic luck star of the splendid one
Salm τ Arabic the leathern bucket
Alkarab υ Arabic the bucket-rope

Deep-sky objects

M15 (NGC 7078) is a globular cluster of magnitude 6.4, 34,000 light-years from Earth. It is a Shapley class IV cluster,[54] which means that it is fairly rich and concentrated towards its center. M15 was discovered in 1746 by Jean-Dominique Maraldi.[55] Pease 1 is a planetary nebula located within the globular cluster and was the first planetary nebula known to exist within a globular cluster.[56] It has an apparent magnitude of 15.5.[57]

NGC 7331 is a spiral galaxy located in Pegasus, 38 million light-years distant with a redshift of 0.0027. It was discovered by musician-astronomer William Herschel in 1784 and was later one of the first nebulous objects to be described as "spiral" by William Parsons. Another of Pegasus's galaxies is NGC 7742, a Type 2 Seyfert galaxy. Located at a distance of 77 million light-years with a redshift of 0.00555, it is an active galaxy with a supermassive black hole at its core. Its characteristic emission lines are produced by gas moving at high speeds around the central black hole.[58]

Pegasus is also noted for its more unusual galaxies and exotic objects. Einstein's Cross is a quasar that has been lensed by a foreground galaxy. The elliptical galaxy is 400 million light-years away with a redshift of 0.0394, but the quasar is 8 billion light-years away. The lensed quasar resembles a cross because the gravitational force of the foreground galaxy on its light creates four images of the quasar.[58] Stephan's Quintet is another unique object located in Pegasus. It is a cluster of five galaxies at a distance of 300 million light-years and a redshift of 0.0215. First discovered by Édouard Stephan, a Frenchman, in 1877, the Quintet is unique for its interacting galaxies. Two of the galaxies in the middle of the group have clearly begun to collide, sparking massive bursts of star formation and drawing off long "tails" of stars. Astronomers have predicted that all five galaxies may eventually merge into one large elliptical galaxy.[58]

Namesakes

USS Pegasus (AK-48) and USS Pegasus (PHM-1) are United States navy ships named after the constellation "Pegasus".

The Beyblade top Storm Pegasus 105RF and its evolutions Galaxy Pegasus W105R2F and Cosmic Pegasus F:D are based on Pegasus constellation.

Pegasus Seiya from the anime of Saint Seiya was named after the constellation Pegasus.

See also

Notes

  1. ^ While parts of the constellation technically rise above the horizon to observers between the 53°S and 87°S, stars within a few degrees of the horizon are to all intents and purposes unobservable.[10]
  2. ^ Objects of magnitude 6.5 are among the faintest visible to the unaided eye in suburban-rural transition night skies.[14]

References

  1. ^ a b c "Pegasus, Constellation Boundary". The Constellations. International Astronomical Union. Retrieved 13 February 2014.
  2. ^ Thurston, Hugh (1996). Early Astronomy. Springer. p. 3. ISBN 978-0-387-94822-5.
  3. ^ Ovid (1986). Melville, A.D. (ed.). Metamorphoses. Oxford: Oxford University Press. p. 98. ISBN 0-19-283472-X.
  4. ^ a b c d Staal 1988, pp. 27–32
  5. ^ Conner, Nancy. The Everything Classical Mythology Book: from the Heights of Mount Olympus to the Depths of the Underworld - All You Need to Know about the Classical Myths. 2nd ed., Adams Media, 2010.
  6. ^ Ridpath, Ian. "Charting the Chinese sky". Star Tales. self-published. Retrieved 21 May 2014.
  7. ^ Schlegel 1967, pp. 233–34.
  8. ^ Magaña, Edmundo; Jara, Fabiola (1982). "The Carib sky". Journal de la Société des Américanistes. 68 (1): 114. doi:10.3406/jsa.1982.2212.
  9. ^ Russell, Henry Norris (1922). "The New International Symbols for the Constellations". Popular Astronomy. 30: 469. Bibcode:1922PA.....30..469R.
  10. ^ a b c Ian Ridpath. "Constellations: Lacerta–Vulpecula". Star Tales. self-published. Retrieved 29 November 2014.
  11. ^ Wagman 2003, p. 235.
  12. ^ Wagman 2003, p. 236.
  13. ^ Wagman 2003, p. 448.
  14. ^ Bortle, John E. (February 2001). "The Bortle Dark-Sky Scale". Sky & Telescope. Sky Publishing Corporation. Retrieved 29 November 2014.
  15. ^ "Epsilon Pegasi -- Pulsating Variable Star". SIMBAD Astronomical Database. Centre de Données astronomiques de Strasbourg. Retrieved 12 February 2014.
  16. ^ Otero, Sebastian Alberto (7 June 2011). "Epsilon Pegasi". AAVSO Website. American Association of Variable Star Observers. Retrieved 12 February 2014.
  17. ^ Kenyon, Scott J.; Mikolajewska, Joanna; Mikolajewski, Maciej; Polidan, Ronald S.; Slovak, Mark H. (1993). "Evolution of the symbiotic binary system AG Pegasi - The slowest classical nova eruption ever recorded" (PDF). Astronomical Journal. 106 (4): 1573–98. Bibcode:1993AJ....106.1573K. doi:10.1086/116749.
  18. ^ a b "Naming Stars". IAU.org. Retrieved 8 August 2018.
  19. ^ Templeton, Matthew (16 July 2010). "Delta Scuti and the Delta Scuti Variables". Variable Star of the Season. AAVSO (American Association of Variable Star Observers). Retrieved 16 March 2016.
  20. ^ Balona, L. A.; Dziembowski, W. A. (1999). "Excitation and visibility of high-degree modes in stars". Monthly Notices of the Royal Astronomical Society. 309 (1): 221–32. Bibcode:1999MNRAS.309..221B. doi:10.1046/j.1365-8711.1999.02821.x.
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  30. ^ Watson, Christopher (25 August 2009). "Beta Pegasi". AAVSO Website. American Association of Variable Star Observers. Retrieved 13 February 2014.
  31. ^ a b "Alpha Pegasi -- Variable Star". SIMBAD Astronomical Database. Centre de Données astronomiques de Strasbourg. Retrieved 13 February 2014.
  32. ^ "Gamma Pegasi -- Variable Star of Beta Cephei type". SIMBAD Astronomical Database. Centre de Données astronomiques de Strasbourg. Retrieved 13 February 2014.
  33. ^ Kaler, James B. "Markab (Alpha Pegasi)". Stars. University of Illinois. Retrieved 13 February 2014.
  34. ^ Kaler, James B. "Algenib (Gamma Pegasi)". Stars. University of Illinois. Retrieved 13 February 2014.
  35. ^ Otero, Sebastian Alberto (26 March 2011). "Gamma Pegasi". AAVSO Website. American Association of Variable Star Observers. Retrieved 13 February 2014.
  36. ^ Kaler, James B. "Matar (Eta Pegasi)". Stars. University of Illinois. Retrieved 14 February 2014.
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  38. ^ Gray, David F. (2014). "Precise Rotation Rates for Five Slowly Rotating a Stars". The Astronomical Journal. 147 (4): 13. Bibcode:2014AJ....147...81G. doi:10.1088/0004-6256/147/4/81. S2CID 121928906. 81.
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  40. ^ Takeda, Yoichi; Sato, Bun'ei; Murata, Daisuke (2008). "Stellar Parameters and Elemental Abundances of Late-G Giants". Publications of the Astronomical Society of Japan. 60 (4): 781–802. arXiv:0805.2434. Bibcode:2008PASJ...60..781T. doi:10.1093/pasj/60.4.781. S2CID 16258166.
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  43. ^ Wonnacott, D.; Kellett, B. J.; Stickland, D. J. (1993), "IK Peg - A nearby, short-period, Sirius-like system", Monthly Notices of the Royal Astronomical Society, 262 (2): 277–284, Bibcode:1993MNRAS.262..277W, doi:10.1093/mnras/262.2.277
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  53. ^ Silvotti, R.; Schuh, S.; Janulis, R.; Solheim, J. -E.; Bernabei, S.; Østensen, R.; Oswalt, T. D.; Bruni, I.; Gualandi, R.; Bonanno, A.; Vauclair, G.; Reed, M.; Chen, C. -W.; Leibowitz, E.; Paparo, M.; Baran, A.; Charpinet, S.; Dolez, N.; Kawaler, S.; Kurtz, D.; Moskalik, P.; Riddle, R.; Zola, S. (2007), "A giant planet orbiting the 'extreme horizontal branch' star V391 Pegasi" (PDF), Nature, 449 (7159): 189–91, Bibcode:2007Natur.449..189S, doi:10.1038/nature06143, PMID 17851517, S2CID 4342338
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Cited texts

  • Schlegel, Gustaaf (1967) [1875]. Uranographie Chinoise (in French). Taipei, Republic of China: Ch'eng Wen Publishing Company.
  • Staal, Julius (1988). The New Patterns in the Night Sky: Myths and Legends of the Stars. Blacksburg: McDonald and Woodward Publishing Company. ISBN 0939923106.
  • Wagman, Morton (2003). Lost Stars: Lost, Missing and Troublesome Stars from the Catalogues of Johannes Bayer, Nicholas Louis de Lacaille, John Flamsteed, and Sundry Others. Blacksburg, Virginia: The McDonald & Woodward Publishing Company. ISBN 978-0-939923-78-6.

External links

 
Wikimedia Commons has media related to:
Pegasus (category)
  • The Deep Photographic Guide to the Constellations: Pegasus
  • The clickable Pegasus
  • Star Tales – Pegasus
  • Warburg Institute Iconographic Database (medieval and early modern images of Pegasus)


March 27, 2023
pegasus, constellation, other, uses, pegasus, disambiguation, pegasus, constellation, northern, named, after, winged, horse, pegasus, greek, mythology, constellations, listed, century, astronomer, ptolemy, constellations, recognised, today, pegasusconstellatio. For other uses see Pegasus disambiguation Pegasus is a constellation in the northern sky named after the winged horse Pegasus in Greek mythology It was one of the 48 constellations listed by the 2nd century astronomer Ptolemy and is one of the 88 constellations recognised today PegasusConstellationList of stars in PegasusAbbreviationPegGenitivePegasiPronunciation ˈ p ɛ ɡ e s e s genitive ˈ p ɛ ɡ e s aɪ Symbolismthe Winged HorseRight ascension21h 12 6m to 00h 14 6m 1 Declination 2 33 to 36 61 1 QuadrantNQ4Area1121 sq deg 7th Main stars9 17Bayer Flamsteedstars88Stars with planets12Stars brighter than 3 00m5Stars within 10 00 pc 32 62 ly 3Brightest stare Peg Enif 2 38m Messier objects1Meteor showersJuly PegasidsBorderingconstellationsAndromedaLacertaCygnusVulpeculaDelphinusEquuleusAquariusPiscesVisible at latitudes between 90 and 60 Best visible at 21 00 9 p m during the month of October With an apparent magnitude varying between 2 37 and 2 45 the brightest star in Pegasus is the orange supergiant Epsilon Pegasi also known as Enif which marks the horse s muzzle Alpha Markab Beta Scheat and Gamma Algenib together with Alpha Andromedae Alpheratz form the large asterism known as the Square of Pegasus Twelve star systems have been found to have exoplanets 51 Pegasi was the first Sun like star discovered to have an exoplanet companion Contents 1 Mythology 2 Characteristics 3 Features 3 1 Stars 3 2 Named stars 3 3 Deep sky objects 4 Namesakes 5 See also 6 Notes 7 References 7 1 Cited texts 8 External linksMythology EditThe Babylonian constellation IKU field had four stars of which three were later part of the Greek constellation Hippos Pegasus 2 Pegasus in Greek mythology was a winged horse with magical powers One myth regarding his powers says that his hooves dug out a spring Hippocrene which blessed those who drank its water with the ability to write poetry Pegasus was born when Perseus cut off the head of Medusa who was impregnated by the god Poseidon He was born with Chrysaor from Medusa s blood 3 Eventually it became the horse for Bellerophon who was asked to kill the Chimera and succeeded with the help of Athena and Pegasus Despite this success after the death of his children Bellerophon asked Pegasus to take him to Mount Olympus Though Pegasus agreed he plummeted back to Earth after Zeus either threw a thunderbolt at him or sent a gadfly to make Pegasus buck him off 4 5 In ancient Persia Pegasus was depicted by al Sufi as a complete horse facing east unlike most other uranographers who had depicted Pegasus as half of a horse rising out of the ocean In al Sufi s depiction Pegasus s head is made up of the stars of Lacerta the lizard Its right foreleg is represented by b Peg and its left foreleg is represented by h Peg m Peg and l Peg its hind legs are marked by 9 Peg The back is represented by p Peg and m Cyg and the belly is represented by i Peg and k Peg 4 In Chinese astronomy the modern constellation of Pegasus lies in The Black Tortoise of the north 北方玄武 where the stars were classified in several separate asterisms of stars 6 Epsilon and Theta Pegasi are joined with Alpha Aquarii to form Wei 危 rooftop with Theta forming the roof apex 7 In Hindu astronomy the Great Square of Pegasus contained the 26th and 27th lunar mansions More specifically it represented a bedstead that was a resting place for the Moon 4 For the Warrau and Arawak peoples in Guyana the stars in the Great Square corresponding to parts of Pegasus and of Andromeda represented a barbecue taken up to the sky by the seven hunters of the myth of Siritjo 4 8 Characteristics EditCovering 1121 square degrees Pegasus is the seventh largest of the 88 constellations Pegasus is bordered by Andromeda to the north and east Lacerta to the north Cygnus to the northwest Vulpecula Delphinus and Equuleus to the west Aquarius to the south and Pisces to the south and east The three letter abbreviation for the constellation as adopted by the IAU in 1922 is Peg 9 The official constellation boundaries as set by Belgian astronomer Eugene Delporte in 1930 are defined as a polygon of 35 segments In the equatorial coordinate system the right ascension coordinates of these borders lie between 21h 12 6m and 00h 14 6m while the declination coordinates are between 2 33 and 36 61 1 Its position in the Northern Celestial Hemisphere means that the whole constellation is visible to observers north of 53 S 10 a Pegasus with the foal Equuleus next to it as depicted in Urania s Mirror a set of constellation cards published in London c 1825 The horses appear upside down in relation to the constellations around them Pegasus is dominated by a roughly square asterism although one of the stars Delta Pegasi or Sirrah is now officially considered to be Alpha Andromedae part of Andromeda and is more usually called Alpheratz Traditionally the body of the horse consists of a quadrilateral formed by the stars a Peg b Peg g Peg and a And The front legs of the winged horse are formed by two crooked lines of stars one leading from h Peg to k Peg and the other from m Peg to 1 Pegasi Another crooked line of stars from a Peg via 8 Peg to e Peg forms the neck and head e is the snout Features Edit The constellation Pegasus as it can be seen by the naked eye Stars Edit See also List of stars in Pegasus Bayer catalogued what he counted as 23 stars in the constellation giving them the Bayer designations Alpha to Psi He saw Pi Pegasi as one star and was uncertain of its brightness wavering between magnitude 4 and 5 Flamsteed labelled this star 29 Pegasi but Bode concluded that the stars 27 and 29 Pegasi should be Pi1 and Pi2 Pegasi and that Bayer had seen them as a single star 11 Flamsteed added lower case letters e through to y omitting A to D as they had been used on Bayer s chart to designate neighbouring constellations and the equator 12 He numbered 89 stars now with Flamsteed designations though 6 and 11 turned out to be stars in Aquarius 13 Within the constellation s borders there are 177 stars of apparent magnitude 6 5 or greater b 10 Epsilon Pegasi also known as Enif marks the horse s muzzle The brightest star in Pegasus is an orange supergiant of spectral type K21b that is around 12 times as massive as the Sun and is around 690 light years distant from Earth 15 It is an irregular variable its apparent magnitude varying between 2 37 and 2 45 16 Lying near Enif is AG Pegasi an unusual star that brightened to magnitude 6 0 around 1885 before dimming to magnitude 9 It is composed of a red giant and white dwarf estimated to be around 2 5 and 0 6 times the mass of the Sun respectively With its outburst taking over 150 years it has been described as the slowest nova ever recorded 17 Three stars with Bayer designations that lie within the Great Square are variable stars Phi and Psi Pegasi are pulsating red giants while Tau Pegasi the proper name is Salm 18 is a Delta Scuti variable a class of short period six hours at most pulsating stars that have been used as standard candles and as subjects to study astroseismology 19 Rotating rapidly with a projected rotational velocity of 150 km s 1 Kerb is almost 30 times as luminous as the Sun and has a pulsation period of 56 5 minutes With an outer atmosphere at an effective temperature of 7 762 K it is a white star with a spectral type of A5IV 20 Zeta Xi Rho and Sigma Pegasi mark the horse s neck 21 The brightest of these with a magnitude of 3 4 is Zeta also traditionally known as Homam Lying seven degrees southwest of Markab it is a blue white main sequence star of spectral type B8V located around 209 light years distant 22 It is a slowly pulsating B star that varies slightly in luminosity with a period of 22 952 0 804 hours completing 1 04566 cycles per day 23 Xi lies 2 degrees northeast and is a yellow white main sequence star of spectral type F6V that is 86 larger and 17 more massive that the Sun and radiate 4 5 times the solar luminosity 24 It has a red dwarf companion that is 192 3 au distant 25 If as is likely the smaller star is in orbit around the larger star then it would take around 2000 years to complete a revolution 26 Theta Pegasi marks the horse s eye 21 Also known as Biham it is a 3 43 magnitude white main sequence star of spectral type A2V around 1 8 times as massive 24 times as luminous and 2 3 times as wide as the Sun 27 Alpha Markab Beta Scheat and Gamma Algenib together with Alpha Andromedae Alpheratz or Sirrah form the large asterism known as the Square of Pegasus The brightest of these Alpheratz was also known as both Delta Pegasi and Alpha Andromedae before being placed in Andromeda in 1922 with the setting of constellation boundaries The second brightest star is Scheat a red giant of spectral type M2 5II IIIe located around 196 light years away from Earth 28 It has expanded until it is some 95 times as large and has a total luminosity 1 500 times that of the Sun 29 Beta Pegasi is a semi regular variable that varies from magnitude 2 31 to 2 74 over a period of 43 3 days 30 Markab and Algenib are blue white stars of spectral types B9III and B2IV located 133 and 391 light years distant respectively 31 32 Appearing to have moved off the main sequence as their core hydrogen supply is being or has been exhausted they are enlarging and cooling to eventually become red giant stars 33 34 Markab has an apparent magnitude of 2 48 31 while Algenib is a Beta Cephei variable that varies between magnitudes 2 82 and 2 86 every 3 hours 38 minutes and also exhibits some slow pulsations every 1 47 days 35 Eta and Omicron Pegasi mark the left knee and Pi Pegasi the left hoof while Iota and Kappa Pegasi mark the right knee and hoof 21 Also known as Matar Eta Pegasi is the fifth brightest star in the constellation Shining with an apparent magnitude of 2 94 it is a multiple star system composed of a yellow giant of spectral type G2 and a yellow white main sequence star of spectral type A5V that are 3 2 and 2 0 times as massive as the Sun The two revolve around each other every 2 24 years Farther afield is a binary system of two G type main sequence stars that would take 170 000 years to orbit the main pair if they are in fact related 36 Omicron Pegasi has a magnitude of 4 79 Located 300 20 light years distant from Earth 37 it is a white subgiant that has begun to cool expand and brighten as it exhausts its core hydrogen fuel and moves off the main sequence 38 Pi1 and Pi2 Pegasi appear as an optical double to the unaided eye as they are separated by 10 arcminutes and are not a true binary system 39 Located 289 8 light years distant 37 Pi1 is an ageing yellow giant of spectral type G6III 1 92 times as massive and around 200 times as luminous as the Sun 40 Pi2 is a yellow white subgiant that is 2 5 times as massive as the Sun and has expanded to 8 times the Sun s radius and brightened to 92 times the Sun s luminosity It is surrounded by a circumstellar disk spinning at 145 km a second 39 and is 263 4 light years distant from Earth 37 IK Pegasi is a close binary comprising an A type main sequence star 41 and white dwarf 42 in very close orbit the latter a candidate for a future type Ia supernova 43 as its main star runs out of core hydrogen fuel and expands into a giant and transfers material to the smaller star Twelve star systems have been found to have exoplanets 51 Pegasi was the first Sun like star discovered to have an exoplanet companion 44 51 Pegasi b unofficially named Bellerophon 45 officially named Dimidium 46 is a hot Jupiter close to its sun completing an orbit every four days Spectroscopic analysis of HD 209458 b an extrasolar planet in this constellation has provided the first evidence of atmospheric water vapor beyond the solar system 47 48 49 while extrasolar planets orbiting the star HR 8799 also in Pegasus are the first to be directly imaged 50 51 52 V391 Pegasi is a hot subdwarf star that has been found to have a planetary companion 53 Pegasus from Al Sufi s Book of Fixed Stars dated 1009 10 Named stars Edit Name 18 Bayer designation Origin MeaningMarkab a Arabic the saddle of the horseScheat b Arabic the upper armAlgenib g Arabic the side wingAlpheratz dEnif e Arabic noseHomam z Arabic man of high spiritMatar h Arabic lucky rain of shooting starsBaham 8 Arabic the livestocksSadalbari m Arabic luck star of the splendid oneSalm t Arabic the leathern bucketAlkarab y Arabic the bucket ropeDeep sky objects Edit Stephan s Quintet photographed by the James Webb Space Telescope M15 NGC 7078 is a globular cluster of magnitude 6 4 34 000 light years from Earth It is a Shapley class IV cluster 54 which means that it is fairly rich and concentrated towards its center M15 was discovered in 1746 by Jean Dominique Maraldi 55 Pease 1 is a planetary nebula located within the globular cluster and was the first planetary nebula known to exist within a globular cluster 56 It has an apparent magnitude of 15 5 57 NGC 7331 is a spiral galaxy located in Pegasus 38 million light years distant with a redshift of 0 0027 It was discovered by musician astronomer William Herschel in 1784 and was later one of the first nebulous objects to be described as spiral by William Parsons Another of Pegasus s galaxies is NGC 7742 a Type 2 Seyfert galaxy Located at a distance of 77 million light years with a redshift of 0 00555 it is an active galaxy with a supermassive black hole at its core Its characteristic emission lines are produced by gas moving at high speeds around the central black hole 58 Pegasus is also noted for its more unusual galaxies and exotic objects Einstein s Cross is a quasar that has been lensed by a foreground galaxy The elliptical galaxy is 400 million light years away with a redshift of 0 0394 but the quasar is 8 billion light years away The lensed quasar resembles a cross because the gravitational force of the foreground galaxy on its light creates four images of the quasar 58 Stephan s Quintet is another unique object located in Pegasus It is a cluster of five galaxies at a distance of 300 million light years and a redshift of 0 0215 First discovered by Edouard Stephan a Frenchman in 1877 the Quintet is unique for its interacting galaxies Two of the galaxies in the middle of the group have clearly begun to collide sparking massive bursts of star formation and drawing off long tails of stars Astronomers have predicted that all five galaxies may eventually merge into one large elliptical galaxy 58 Namesakes EditUSS Pegasus AK 48 and USS Pegasus PHM 1 are United States navy ships named after the constellation Pegasus The Beyblade top Storm Pegasus 105RF and its evolutions Galaxy Pegasus W105R2F and Cosmic Pegasus F D are based on Pegasus constellation Pegasus Seiya from the anime of Saint Seiya was named after the constellation Pegasus See also EditPegasus Chinese astronomy Notes Edit While parts of the constellation technically rise above the horizon to observers between the 53 S and 87 S stars within a few degrees of the horizon are to all intents and purposes unobservable 10 Objects of magnitude 6 5 are among the faintest visible to the unaided eye in suburban rural transition night skies 14 References Edit a b c Pegasus Constellation Boundary The Constellations International Astronomical Union Retrieved 13 February 2014 Thurston Hugh 1996 Early Astronomy Springer p 3 ISBN 978 0 387 94822 5 Ovid 1986 Melville A D ed Metamorphoses Oxford Oxford University Press p 98 ISBN 0 19 283472 X a b c d Staal 1988 pp 27 32 Conner Nancy The Everything Classical Mythology Book from the Heights of Mount Olympus to the Depths of the Underworld All You Need to Know about the Classical Myths 2nd ed Adams Media 2010 Ridpath Ian Charting the Chinese sky Star Tales self published Retrieved 21 May 2014 Schlegel 1967 pp 233 34 Magana Edmundo Jara Fabiola 1982 The Carib sky Journal de la Societe des Americanistes 68 1 114 doi 10 3406 jsa 1982 2212 Russell Henry Norris 1922 The New International Symbols for the Constellations Popular Astronomy 30 469 Bibcode 1922PA 30 469R a b c Ian Ridpath Constellations Lacerta Vulpecula Star Tales self published Retrieved 29 November 2014 Wagman 2003 p 235 Wagman 2003 p 236 Wagman 2003 p 448 Bortle John E February 2001 The Bortle Dark Sky Scale Sky amp Telescope Sky Publishing Corporation Retrieved 29 November 2014 Epsilon Pegasi Pulsating Variable Star SIMBAD Astronomical Database Centre de Donnees astronomiques de Strasbourg Retrieved 12 February 2014 Otero Sebastian Alberto 7 June 2011 Epsilon Pegasi AAVSO Website American Association of Variable Star Observers Retrieved 12 February 2014 Kenyon Scott J Mikolajewska Joanna Mikolajewski Maciej Polidan Ronald S Slovak Mark H 1993 Evolution of the symbiotic binary system AG Pegasi The slowest classical nova eruption ever recorded PDF Astronomical Journal 106 4 1573 98 Bibcode 1993AJ 106 1573K doi 10 1086 116749 a b Naming Stars IAU org Retrieved 8 August 2018 Templeton Matthew 16 July 2010 Delta Scuti and the Delta Scuti Variables Variable Star of the Season AAVSO American Association of Variable Star Observers Retrieved 16 March 2016 Balona L A Dziembowski W A 1999 Excitation and visibility of high degree modes in stars Monthly Notices of the Royal Astronomical Society 309 1 221 32 Bibcode 1999MNRAS 309 221B doi 10 1046 j 1365 8711 1999 02821 x a b c Wagman 2003 p 513 Kaler James B 16 November 2007 Homam Zeta Pegasi Stars University of Illinois Retrieved 13 February 2014 Goebel John H 2007 Gravity Probe B Photometry and Observations of z Pegasi An SPB Variable Star The Publications of the Astronomical Society of the Pacific 119 855 483 93 Bibcode 2007PASP 119 483G doi 10 1086 518618 Ghezzi L Cunha K Smith V V de Araujo F X Schuler S C de la Reza R 2010 Stellar Parameters and Metallicities of Stars Hosting Jovian and Neptunian Mass Planets A Possible Dependence of Planetary Mass on Metallicity The Astrophysical Journal 720 2 1290 1302 arXiv 1007 2681 Bibcode 2010ApJ 720 1290G doi 10 1088 0004 637X 720 2 1290 S2CID 118565025 Moro Martin A Marshall J P Kennedy G Sibthorpe B Matthews B C Eiroa C Wyatt M C Lestrade J F Maldonado J Rodriguez D Greaves J S Montesinos B Mora A Booth M Duchene G Wilner D Horner J 2015 Does the Presence of Planets Affect the Frequency and Properties of Extrasolar Kuiper Belts Results from the Herschel Debris and Dunes Surveys The Astrophysical Journal 801 2 28 arXiv 1501 03813 Bibcode 2015ApJ 801 143M doi 10 1088 0004 637X 801 2 143 S2CID 55170390 143 Kaler James B 30 November 2007 Xi Pegasi Stars University of Illinois Retrieved 15 March 2016 Boyajian Tabetha S von Braun Kaspar van Belle Gerard Farrington Chris Schaefer Gail Jones Jeremy White Russel McAlister Harold A ten Brummelaar Theo A Ridgway Stephen Gies Douglas Sturmann Laszlo Sturmann Judit Turner Nils H Goldfinger P J Vargas Norm 2013 Stellar Diameters and Temperatures III Main sequence A F G and K Stars Additional High precision Measurements and Empirical Relations The Astrophysical Journal 771 1 31 arXiv 1306 2974 Bibcode 2013ApJ 771 40B doi 10 1088 0004 637X 771 1 40 S2CID 14911430 40 See Table 3 Beta Pegasi Pulsating Variable Star SIMBAD Astronomical Database Centre de Donnees astronomiques de Strasbourg Retrieved 13 February 2014 Kaler James B 22 May 2009 Scheat Beta Pegasi Stars University of Illinois Retrieved 13 February 2014 Watson Christopher 25 August 2009 Beta Pegasi AAVSO Website American Association of Variable Star Observers Retrieved 13 February 2014 a b Alpha Pegasi Variable Star SIMBAD Astronomical Database Centre de Donnees astronomiques de Strasbourg Retrieved 13 February 2014 Gamma Pegasi Variable Star of Beta Cephei type SIMBAD Astronomical Database Centre de Donnees astronomiques de Strasbourg Retrieved 13 February 2014 Kaler James B Markab Alpha Pegasi Stars University of Illinois Retrieved 13 February 2014 Kaler James B Algenib Gamma Pegasi Stars University of Illinois Retrieved 13 February 2014 Otero Sebastian Alberto 26 March 2011 Gamma Pegasi AAVSO Website American Association of Variable Star Observers Retrieved 13 February 2014 Kaler James B Matar Eta Pegasi Stars University of Illinois Retrieved 14 February 2014 a b c van Leeuwen F 2007 Validation of the New Hipparcos Reduction Astronomy and Astrophysics 474 2 653 64 arXiv 0708 1752 Bibcode 2007A amp A 474 653V doi 10 1051 0004 6361 20078357 S2CID 18759600 Gray David F 2014 Precise Rotation Rates for Five Slowly Rotating a Stars The Astronomical Journal 147 4 13 Bibcode 2014AJ 147 81G doi 10 1088 0004 6256 147 4 81 S2CID 121928906 81 a b Kaler James B Pi Pegasi Stars University of Illinois Retrieved 16 March 2016 Takeda Yoichi Sato Bun ei Murata Daisuke 2008 Stellar Parameters and Elemental Abundances of Late G Giants Publications of the Astronomical Society of Japan 60 4 781 802 arXiv 0805 2434 Bibcode 2008PASJ 60 781T doi 10 1093 pasj 60 4 781 S2CID 16258166 Skiff B A October 2014 Catalogue of Stellar Spectral Classifications Lowell Observatory VizieR On line Data Catalog B mk Bibcode 2014yCat 1 2023S Barstow M A Holberg J B Koester D 1994 Extreme Ultraviolet Spectrophotometry of HD16538 and HR 8210 Ik Pegasi Monthly Notices of the Royal Astronomical Society 270 3 516 Bibcode 1994MNRAS 270 516B doi 10 1093 mnras 270 3 516 Wonnacott D Kellett B J Stickland D J 1993 IK Peg A nearby short period Sirius like system Monthly Notices of the Royal Astronomical Society 262 2 277 284 Bibcode 1993MNRAS 262 277W doi 10 1093 mnras 262 2 277 Mayor Michael Queloz Didier 1995 A Jupiter mass companion to a solar type star Nature 378 6555 355 359 Bibcode 1995Natur 378 355M doi 10 1038 378355a0 S2CID 4339201 University of California at Berkeley News Release 1996 17 01 Final Results of NameExoWorlds Public Vote Released International Astronomical Union 15 December 2015 Water Found in Extrasolar Planet s Atmosphere Space com Staff December 3 2013 Hubble Traces Subtle Signals of Water on Hazy Worlds NASA Retrieved December 4 2013 a href Template Cite web html title Template Cite web cite web a CS1 maint uses authors parameter link Deming Drake et al September 10 2013 Infrared Transmission Spectroscopy of the Exoplanets HD 209458b and XO 1b Using the Wide Field Camera 3 on the Hubble Space Telescope Astrophysical Journal 774 2 95 arXiv 1302 1141 Bibcode 2013ApJ 774 95D doi 10 1088 0004 637X 774 2 95 S2CID 10960488 Achenbach Joel 13 November 2008 Scientists publish first direct images of extrasolar planets The Washington Post Retrieved 13 November 2008 Gemini releases historic discovery image of planetary first family Press release Gemini Observatory 13 November 2008 Retrieved 13 November 2008 Astronomers capture first images of newly discovered solar system Press release W M Keck Observatory 13 November 2008 Archived from the original on 26 November 2013 Retrieved 13 November 2008 Silvotti R Schuh S Janulis R Solheim J E Bernabei S Ostensen R Oswalt T D Bruni I Gualandi R Bonanno A Vauclair G Reed M Chen C W Leibowitz E Paparo M Baran A Charpinet S Dolez N Kawaler S Kurtz D Moskalik P Riddle R Zola S 2007 A giant planet orbiting the extreme horizontal branch star V391 Pegasi PDF Nature 449 7159 189 91 Bibcode 2007Natur 449 189S doi 10 1038 nature06143 PMID 17851517 S2CID 4342338 Shapley Harlow Sawyer Helen B August 1927 A Classification of Globular Clusters Harvard College Observatory Bulletin 849 849 11 14 Bibcode 1927BHarO 849 11S Levy 2005 pp 157 158 sfn error no target CITEREFLevy2005 help Globular Cluster M15 and Planetary Nebula Pease 1 www astropix com Archived from the original on 2011 07 18 Dunlop Storm 2005 Atlas of the Night Sky Collins ISBN 0 00 717223 0 a b c Wilkins Jamie Dunn Robert 2006 300 Astronomical Objects Firefly Books ISBN 978 1 55407 175 3 Cited texts Edit Schlegel Gustaaf 1967 1875 Uranographie Chinoise in French Taipei Republic of China Ch eng Wen Publishing Company Staal Julius 1988 The New Patterns in the Night Sky Myths and Legends of the Stars Blacksburg McDonald and Woodward Publishing Company ISBN 0939923106 Wagman Morton 2003 Lost Stars Lost Missing and Troublesome Stars from the Catalogues of Johannes Bayer Nicholas Louis de Lacaille John Flamsteed and Sundry Others Blacksburg Virginia The McDonald amp Woodward Publishing Company ISBN 978 0 939923 78 6 External links Edit Wikimedia Commons has media related to Pegasus category The Deep Photographic Guide to the Constellations Pegasus The clickable Pegasus Star Tales Pegasus Warburg Institute Iconographic Database medieval and early modern images of Pegasus Portals Astronomy Stars Spaceflight Outer space Solar System Retrieved from https en wikipedia org w index php title Pegasus constellation amp oldid 1140458794, wikipedia, wiki, book, books, library,

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