Aquarius
Constellation
Aquarius
AbbreviationAqr
GenitiveAquarii
Pronunciation/əˈkwɛəriəs/, genitive /əˈkwɛəri/
Symbolismthe Water-Bearer
Right ascension20h 38m 19.1706s23h 56m 23.5355s[1]
Declination03.3256676°–−24.9040413°[1]
Area980 sq. deg. (10th)
Main stars10, 22
Bayer/Flamsteed
stars
97
Stars with planets12
Stars brighter than 3.00m2
Stars within 10.00 pc (32.62 ly)7
Brightest starβ Aqr (Sadalsuud) (2.91m)
Messier objects3
Meteor showersMarch Aquariids
Eta Aquariids
Delta Aquariids
Iota Aquariids
Bordering
constellations
Pisces
Pegasus
Equuleus
Delphinus
Aquila
Capricornus
Piscis Austrinus
Sculptor
Cetus
Visible at latitudes between +65° and −90°.
Best visible at 21:00 (9 p.m.) during the month of October.

Aquarius is an equatorial constellation of the zodiac, between Capricornus and Pisces. Its name is Latin for "water-carrier" or "cup-carrier", and its old astronomical symbol is (♒︎), a representation of water. Aquarius is one of the oldest of the recognized constellations along the zodiac (the Sun's apparent path).[2] It was one of the 48 constellations listed by the 2nd century astronomer Ptolemy, and it remains one of the 88 modern constellations. It is found in a region often called the Sea due to its profusion of constellations with watery associations such as Cetus the whale, Pisces the fish, and Eridanus the river.[3]

At apparent magnitude 2.9, Beta Aquarii is the brightest star in the constellation.

History and mythology

Aquarius is identified as GU.LA "The Great One" in the Babylonian star catalogues and represents the god Ea himself, who is commonly depicted holding an overflowing vase. The Babylonian star-figure appears on entitlement stones and cylinder seals from the second millennium. It contained the winter solstice in the Early Bronze Age.[4] In Old Babylonian astronomy, Ea was the ruler of the southernmost quarter of the Sun's path, the "Way of Ea", corresponding to the period of 45 days on either side of winter solstice. Aquarius was also associated with the destructive floods that the Babylonians regularly experienced, and thus was negatively connoted.[3] In Ancient Egypt astronomy, Aquarius was associated with the annual flood of the Nile; the banks were said to flood when Aquarius put his jar into the river, beginning spring.[5]

In the Greek tradition, the constellation came to be represented simply as a single vase from which a stream poured down to Piscis Austrinus. The name in the Hindu zodiac is likewise kumbha "water-pitcher".[2]

In Greek mythology, Aquarius is sometimes associated with Deucalion, the son of Prometheus who built a ship with his wife Pyrrha to survive an imminent flood. They sailed for nine days before washing ashore on Mount Parnassus.[3][6] Aquarius is also sometimes identified with beautiful Ganymede, a youth in Greek mythology and the son of Trojan king Tros, who was taken to Mount Olympus by Zeus to act as cup-carrier to the gods.[7][8][6] Neighboring Aquila represents the eagle, under Zeus' command, that snatched the young boy;[9] some versions of the myth indicate that the eagle was in fact Zeus transformed. An alternative version of the tale recounts Ganymede's kidnapping by the goddess of the dawn, Eos, motivated by her affection for young men; Zeus then stole him from Eos and employed him as cup-bearer. Yet another figure associated with the water bearer is Cecrops I, a king of Athens who sacrificed water instead of wine to the gods.[6]

Depictions

A representation of Aquarius printed in 1825 as part of Urania's Mirror (including a now-obsolete constellation, Ballon Aerostatique south of it)

In the first century, Ptolemy's Almagest established the common Western depiction of Aquarius. His water jar, an asterism itself, consists of Gamma, Pi, Eta, and Zeta Aquarii; it pours water in a stream of more than 20 stars terminating with Fomalhaut, now assigned solely to Piscis Austrinus. The water bearer's head is represented by 5th magnitude 25 Aquarii while his left shoulder is Beta Aquarii; his right shoulder and forearm are represented by Alpha and Gamma Aquarii respectively.[6]

In Eastern astronomy

In Chinese astronomy, the stream of water flowing from the Water Jar was depicted as the "Army of Yu-Lin" (Yu-lim-kiun or Yulinjun, Hanzi: 羽林君). The name "Yu-lin" means "feathers and forests", referring to the numerous light-footed soldiers from the northern reaches of the empire represented by these faint stars.[5][6] The constellation's stars were the most numerous of any Chinese constellation, numbering 45, the majority of which were located in modern Aquarius. The celestial army was protected by the wall Leibizhen (垒壁阵), which counted Iota, Lambda, Phi, and Sigma Aquarii among its 12 stars.[6] 88, 89, and 98 Aquarii represent Fou-youe, the axes used as weapons and for hostage executions. Also in Aquarius is Loui-pi-tchin, the ramparts that stretch from 29 and 27 Piscium and 33 and 30 Aquarii through Phi, Lambda, Sigma, and Iota Aquarii to Delta, Gamma, Kappa, and Epsilon Capricorni.[5]

Near the border with Cetus, the axe Fuyue was represented by three stars; its position is disputed and may have instead been located in Sculptor. Tienliecheng also has a disputed position; the 13-star castle replete with ramparts may have possessed Nu and Xi Aquarii but may instead have been located south in Piscis Austrinus. The Water Jar asterism was seen to the ancient Chinese as the tomb, Fenmu. Nearby, the emperors' mausoleum Xiuliang stood, demarcated by Kappa Aquarii and three other collinear stars. Ku ("crying") and Qi ("weeping"), each composed of two stars, were located in the same region.[6]

Three of the Chinese lunar mansions shared their name with constellations. Nu, also the name for the 10th lunar mansion, was a handmaiden represented by Epsilon, Mu, 3, and 4 Aquarii. The 11th lunar mansion shared its name with the constellation Xu ("emptiness"), formed by Beta Aquarii and Alpha Equulei; it represented a bleak place associated with death and funerals. Wei, the rooftop and 12th lunar mansion, was a V-shaped constellation formed by Alpha Aquarii, Theta Pegasi, and Epsilon Pegasi; it shared its name with two other Chinese constellations, in modern-day Scorpius and Aries.[6]

Features

Stars

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

Despite both its prominent position on the zodiac and its large size, Aquarius has no particularly bright stars, its four brightest stars being less than magnitude 2 .[7] However, recent research has shown that there are several stars lying within its borders that possess planetary systems.

The two brightest stars, α Aquarii and β Aquarii, are luminous yellow supergiants, of spectral types G0Ib and G2Ib respectively,[10] that were once hot blue-white B-class main sequence stars 5 to 9 times as massive as the Sun. The two are also moving through space perpendicular to the plane of the Milky Way.[11] Just shading α, β Aquarii is the brightest star in Aquarius with apparent magnitude 2.91 . It also has the proper name of Sadalsuud. Having cooled and swollen to around 50 times the Sun's diameter, it is around 2200 times as luminous as the Sun.[12] It is around 6.4 times as massive as the Sun and around 56 million years old.[13] Sadalsuud is 540 ± 20 light-years from Earth.[14] α Aquarii, also known as Sadalmelik, has apparent magnitude 2.94 . It is 520 ± 20 light years distant from Earth,[14] and is around 6.5 times as massive as the Sun, and 3000 times as luminous. It is 53 million years old.[10]

γ Aquarii, also called Sadachbia,[15] is a white main sequence star of spectral type star of spectral type A0V that is between 158 and 315 million years old and is around 2.5 times the Sun's mass (2.5 M),[16] and double its radius.[17] Its magnitude is 3.85, and it is 164 ± 9 light years away,[14] hence its luminosity is 50 L .[7] The name Sadachbia comes from the Arabic for "lucky stars of the tents", sa'd al-akhbiya.[6]

δ Aquarii, also known as Skat[15][8] or Scheat[7] is a blue-white spectral type A2 star with apparent magnitude 3.27 and luminosity 105 L .[7]

ε Aquarii, also known as Albali,[5] is a blue-white spectral type A1 star with apparent magnitude 3.77, absolute magnitude 1.2, and a luminosity of 28 L .[7][8]

ζ Aquarii is a spectral type F2 double star; both stars are white.[8] In combination, they appear to be magnitude 3.6 with luminosity 50 L . The primary has magnitude 4.53 and the secondary's magnitude is 4.31, but both have absolute magnitude 0.6 .[7] The system's orbital period is 760 years; currently the two components are moving farther apart.[8]

θ Aquarii, sometimes called Ancha,[5] is spectral type G8 with apparent magnitude 4.16 and an absolute magnitude 1.4 .[7]

κ Aquarii, also called Situla, has an apparent magnitude 5.03 .[15]

λ Aquarii, also called Hudoor or Ekchusis,[5] is spectral type M2 with magnitude 3.74 and luminosity 120 L .[7]

ξ Aquarii, also called Bunda,[15] is spectral type A7 with an apparent magnitude 4.69 and an absolute magnitude 2.4 .[7]

π Aquarii, also called Seat, is spectral type B0 with apparent magnitude 4.66 and absolute magnitude −4.1 .[7]

Planetary systems

Twelve exoplanet systems have been found in Aquarius as of 2013. Gliese 876, one of the nearest stars to Earth at a distance of 15 light-years,[18] was the first red dwarf star to be found to possess a planetary system. It is orbited by four planets, including one terrestrial planet 6.6 times the mass of Earth. The planets vary in orbital period from 2 days to 124 days.[19] 91 Aquarii is an orange giant star orbited by one planet, 91 Aquarii b. The planet's mass is 2.9 times the mass of Jupiter, and its orbital period is 182 days.[20] Gliese 849 is a red dwarf star orbited by the first known long-period Jupiter-like planet, Gliese 849 b. The planet's mass is 0.99 times that of Jupiter and its orbital period is 1,852 days.[21]

There are also less-prominent systems in Aquarius. WASP-6, a type G8 star of magnitude 12.4, is host to one exoplanet, WASP-6 b. The star is 307 parsecs from Earth and has a mass of 0.888 solar masses and a radius of 0.87 solar radii. WASP-6 b was discovered in 2008 by the transit method. It orbits its parent star every 3.36 days at a distance of 0.042 astronomical units (AU). It is 0.503 Jupiter masses but has a proportionally larger radius of 1.224 Jupiter radii.[22] HD 206610, a K0 star located 194 parsecs from Earth, is host to one planet, HD 206610 b. The host star is larger than the Sun; more massive at 1.56 solar masses and larger at 6.1 solar radii. The planet was discovered by the radial velocity method in 2010 and has a mass of 2.2 Jupiter masses. It orbits every 610 days at a distance of 1.68 AU.[23] Much closer to its sun is WASP-47 b, which orbits every 4.15 days only 0.052 AU from its sun, yellow dwarf (G9V) WASP-47. WASP-47 is close in size to the Sun, having a radius of 1.15 solar radii and a mass even closer at 1.08 solar masses. WASP-47 b was discovered in 2011 by the transit method, like WASP-6 b. It is slightly larger than Jupiter with a mass of 1.14 Jupiter masses and a radius of 1.15 Jupiter masses.[24]

There are several more single-planet systems in Aquarius. HD 210277, a magnitude 6.63 yellow star located 21.29 parsecs from Earth, is host to one known planet: HD 210277 b. The 1.23 Jupiter mass planet orbits at nearly the same distance as Earth orbits the Sun1.1 AU, though its orbital period is significantly longer at around 442 days. HD 210277 b was discovered earlier than most of the other planets in Aquarius, detected by the radial velocity method in 1998. The star it orbits resembles the Sun beyond their similar spectral class; it has a radius of 1.1 solar radii and a mass of 1.09 solar masses.[25] HD 212771 b, a larger planet at 2.3 Jupiter masses, orbits host star HD 212771 at a distance of 1.22 AU. The star itself, barely below the threshold of naked-eye visibility at magnitude 7.6, is a G8IV (yellow subgiant) star located 131 parsecs from Earth. Though it has a similar mass to the Sun1.15 solar massesit is significantly less dense with its radius of 5 solar radii. Its lone planet was discovered in 2010 by the radial velocity method, like several other exoplanets in the constellation.[26]

As of 2013, there were only two known multiple-planet systems within the bounds of Aquarius: the Gliese 876 and HD 215152 systems. The former is quite prominent; the latter has only two planets and has a host star farther away at 21.5 parsecs. The HD 215152 system consists of the planets HD 215152 b and HD 215152 c orbiting their K0-type, magnitude 8.13 sun. Both discovered in 2011 by the radial velocity method, the two tiny planets orbit very close to their host star. HD 215152 c is the larger at 0.0097 Jupiter masses (still significantly larger than the Earth, which weighs in at 0.00315 Jupiter masses); its smaller sibling is barely smaller at 0.0087 Jupiter masses. The error in the mass measurements (0.0032 and 0.0049 MJ respectively) is large enough to make this discrepancy statistically insignificant. HD 215152 c also orbits further from the star than HD 215152 b, 0.0852 AU compared to 0.0652.[27][28]

On 23 February 2017, NASA announced that ultracool dwarf star TRAPPIST-1 in Aquarius has seven Earth-like rocky planets.[29] Of these, as many as four may lie within the system's habitable zone, and may have liquid water on their surfaces. The discovery of the TRAPPIST-1 system is seen by astronomers as a significant step toward finding life beyond Earth.

Deep sky objects

The green bean galaxy J2240 lies in the constellation of Aquarius[30]

Because of its position away from the galactic plane, the majority of deep-sky objects in Aquarius are galaxies, globular clusters, and planetary nebulae.[3] Aquarius contains three deep sky objects that are in the Messier catalog: the globular clusters Messier 2, Messier 72, and the asterism Messier 73. While M73 was originally catalogued as a sparsely populated open cluster, modern analysis indicates the 6 main stars are not close enough together to fit this definition, reclassifying M73 as an asterism.[31] Two well-known planetary nebulae are also located in Aquarius: the Saturn Nebula (NGC 7009), to the southeast of μ Aquarii; and the famous Helix Nebula (NGC 7293), southwest of δ Aquarii.

M2, also catalogued as NGC 7089, is a rich globular cluster located approximately 37,000 light-years from Earth. At magnitude 6.5, it is viewable in small-aperture instruments, but a 100 mm aperture telescope is needed to resolve any stars. M72, also catalogued as NGC 6981, is a small 9th magnitude globular cluster located approximately 56,000 light-years from Earth.[8] M73, also catalogued as NGC 6994, is an open cluster with highly disputed status.

Aquarius is also home to several planetary nebulae. NGC 7009, also known as the Saturn Nebula, is an 8th magnitude planetary nebula located 3,000 light-years from Earth. It was given its moniker by the 19th century astronomer Lord Rosse for its resemblance to the planet Saturn in a telescope; it has faint protrusions on either side that resemble Saturn's rings. It appears blue-green in a telescope and has a central star of magnitude 11.3.[8] Compared to the Helix Nebula, another planetary nebula in Aquarius, it is quite small.[32] NGC 7293, also known as the Helix Nebula, is the closest planetary nebula to Earth at a distance of 650 light-years. It covers 0.25 square degrees, making it also the largest planetary nebula as seen from Earth. However, because it is so large, it is only viewable as a very faint object,[8] though it has a fairly high integrated magnitude of 6.0.[33]

One of the visible galaxies in Aquarius is NGC 7727, of particular interest for amateur astronomers who wish to discover or observe supernovae. A spiral galaxy (type S), it has an integrated magnitude of 10.7 and is 3 by 3 arcseconds.[34] NGC 7252 is a tangle of stars resulting from the collision of two large galaxies and is known as the Atoms-for-Peace galaxy because of its resemblance to a cartoon atom.[35]

Meteor showers

There are three major meteor showers with radiants in Aquarius: the Eta Aquariids, the Delta Aquariids, and the Iota Aquariids.

The Eta Aquariids are the strongest meteor shower radiating from Aquarius. It peaks between 5 and 6 May with a rate of approximately 35 meteors per hour.[8] Originally discovered by Chinese astronomers in 401, Eta Aquariids can be seen coming from the Water Jar beginning on 21 April and as late as 12 May. The parent body of the shower is Halley's Comet, a periodic comet. Fireballs are common shortly after the peak, approximately between 9 May and 11 May. The normal meteors appear to have yellow trails.[36]

The Delta Aquariids is a double radiant meteor shower that peaks first on 29 July and second on 6 August. The first radiant is located in the south of the constellation, while the second radiant is located in the northern circlet of Pisces asterism. The southern radiant's peak rate is about 20 meteors per hour, while the northern radiant's peak rate is about 10 meteors per hour.[8]

The Iota Aquariids is a fairly weak meteor shower that peaks on 6 August, with a rate of approximately 8 meteors per hour.[8]

Astrology

As of 2002, the Sun appears in the constellation Aquarius from 16 February to 12 March. In tropical astrology, the Sun is considered to be in the sign Aquarius from 20 January to 19 February, and in sidereal astrology, from 15 February to 14 March.

Aquarius is also associated with the Age of Aquarius, a concept popular in 1960s counterculture and Medieval Alchemy. The date of the start of The Age of Aquarius is a topic of much debate.

Notes

  1. 1 2 "Aquarius, constellation boundary". The Constellations. Retrieved 30 April 2016.
  2. 1 2 Rogers, John H. (February 1998), "Origins of the ancient constellations: I. The Mesopotamian traditions", Journal of the British Astronomical Association, 108 (1): 9–28, Bibcode:1998JBAA..108....9R
  3. 1 2 3 4 Thompson & Thompson 2007.
  4. Thurston 1996.
  5. 1 2 3 4 5 6 Staal 1988, pp. 42–44.
  6. 1 2 3 4 5 6 7 8 9 Star Tales.
  7. 1 2 3 4 5 6 7 8 9 10 11 Moore 2000.
  8. 1 2 3 4 5 6 7 8 9 10 11 Ridpath 2001.
  9. Rogers, John H. (April 1998), "Origins of the ancient constellations: II. The Mediterranean traditions" (PDF), Journal of the British Astronomical Association, 108 (2): 79–89, Bibcode:1998JBAA..108...79R
  10. 1 2 Lyubimkov, Leonid S.; Lambert, David L.; Rostopchin, Sergey I.; Rachkovskaya, Tamara M.; Poklad, Dmitry B. (2010). "Accurate fundamental parameters for A-, F- and G-type supergiants in the solar neighbourhood". Monthly Notices of the Royal Astronomical Society. 402 (2): 1369–1379. arXiv:0911.1335. Bibcode:2010MNRAS.402.1369L. doi:10.1111/j.1365-2966.2009.15979.x. S2CID 119096173.
  11. Ayres, Thomas R.; Brown, Alexander; Harper, Graham M. (July 2005). "Chandra observations of coronal emission from the early G supergiants α and β Aquarii". The Astrophysical Journal. 627 (1): L53–L56. Bibcode:2005ApJ...627L..53A. doi:10.1086/431977.
  12. Kaler, James B. "Sadalsuud (Beta Aquarii)". Stars. Astronomy Department. U. Illinois. Retrieved 11 October 2016.
  13. Lyubimkov, Leonid S.; Lambert, David L.; Korotin, Sergey A.; Rachkovskaya, Tamara M.; Poklad, Dmitry B. (2015). "Carbon abundance and the N/C ratio in atmospheres of A-, F- and G-type supergiants and bright giants". Monthly Notices of the Royal Astronomical Society. 446 (4): 3447. arXiv:1411.2722. Bibcode:2015MNRAS.446.3447L. doi:10.1093/mnras/stu2299. S2CID 118473779.
  14. 1 2 3 van Leeuwen, F. (2007). "Validation of the new Hipparcos reduction". Astronomy and Astrophysics. 474 (2): 653–64. arXiv:0708.1752. Bibcode:2007A&A...474..653V. doi:10.1051/0004-6361:20078357. S2CID 18759600.
  15. 1 2 3 4 "Star Names". IAU.org. International Astronomical Union. Retrieved 30 July 2018.
  16. David, Trevor J.; Hillenbrand, Lynne A. (2015). "The ages of early-type stars: Strömgren photometric methods calibrated, validated, tested, and applied to hosts and prospective hosts of directly imaged exoplanets". The Astrophysical Journal. 804 (2): 146. arXiv:1501.03154. Bibcode:2015ApJ...804..146D. doi:10.1088/0004-637X/804/2/146. S2CID 33401607.
    "Hipparcos 102395". VizieR (star data catalog entry). Strasbourg, FR: CDS via HarvardSmithsonian, Center for Astrophysics.
  17. Pasinetti Fracassini, L.E.; Pastori, L.; Covino, S.; Pozzi, A. (February 2001). "Catalogue of apparent diameters and absolute radii of stars (CADARS) – third edition – comments and statistics". Astronomy and Astrophysics. 367 (2): 521–524. arXiv:astro-ph/0012289. Bibcode:2001A&A...367..521P. doi:10.1051/0004-6361:20000451. S2CID 425754.
  18. APOD Gliese 876.
  19. Exoplanet Encyclopedia Gliese 876.
  20. Exoplanet Encyclopedia 91 Aqr.
  21. Exoplanet Encyclopedia Gj 849.
  22. Exoplanet Encyclopedia WASP-6.
  23. Exoplanet Encyclopedia HD 206610 b.
  24. Exoplanet Encyclopedia WASP-47 b.
  25. Exoplanet Encyclopedia HD 210277 b.
  26. Exoplanet Encyclopedia HD 212771 b.
  27. Exoplanet Encyclopedia HD 215152 b.
  28. Exoplanet Encyclopedia HD 215152 c.
  29. "NASA Telescope Reveals Largest Batch of Earth-Size, Habitable-Zone Planets Around Single Star". NASA. 22 February 2017. Retrieved 23 February 2017.
  30. "Galaxy-wide Echoes from the Past". ESO Press Release (Press release). Retrieved 7 December 2012.
  31. Odenkirchen, M.; Soubiran, C. (1 February 2002). "NGC 6994 – clearly not a physical stellar ensemble". Astronomy & Astrophysics. 383 (1): 163–170. arXiv:astro-ph/0111601. Bibcode:2002A&A...383..163O. doi:10.1051/0004-6361:20011730. ISSN 0004-6361. S2CID 15545816.
  32. Levy 2005, p. 132.
  33. Levy 2005, p. 131.
  34. Sherrod & Koed 2003, p. 222.
  35. APOD Atoms-for-Peace Galaxy.
  36. Sherrod & Koed 2003, p. 52.

See also

References

  • "Atoms-for-Peace Galaxy Collision", Astronomy Picture of the Day, NASA, 16 November 2010, retrieved 22 August 2014
  • "A Planet for Gliese 876", Astronomy Picture of the Day, NASA, 26 June 1998, retrieved 23 April 2012
  • "Planet WASP-6 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 8 April 2012, archived from the original on 14 March 2014, retrieved 23 February 2013
  • "Notes for star Gliese 876", Extrasolar Planets Encyclopaedia, archived from the original on 26 April 2012, retrieved 23 April 2012
  • "Notes for star 91 Aqr", Extrasolar Planets Encyclopaedia, archived from the original on 5 May 2011, retrieved 23 April 2012
  • "Notes for star Gj 849", Extrasolar Planets Encyclopaedia, archived from the original on 6 November 2007, retrieved 23 April 2012
  • "Planet HD 206610 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 19 March 2010, archived from the original on 14 March 2014, retrieved 21 March 2013
  • "Planet WASP-47 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 24 April 2012, archived from the original on 14 March 2014, retrieved 21 March 2013
  • "Planet HD 210277 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 6 September 2006, archived from the original on 14 March 2014, retrieved 22 March 2013
    • "Planet HD 212771 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 19 March 2010, archived from the original on 14 March 2014, retrieved 22 March 2013
  • "Planet HD 215152 b", The Extrasolar Planet Encyclopedia, Paris Observatory, 12 September 2011, archived from the original on 14 March 2014, retrieved 22 March 2013
  • "Planet HD 215152 c", The Extrasolar Planet Encyclopedia, Paris Observatory, 12 September 2011, archived from the original on 14 March 2014, retrieved 22 March 2013
  • Levy, David H. (2005), Deep Sky Objects, Prometheus Books, ISBN 978-1-59102-361-6
  • Moore, Patrick; Tirion, Wil (1997), Cambridge Guide to Stars and Planets (2nd ed.), Cambridge University Press, ISBN 978-0-521-58582-8
  • Moore, Patrick (2000), The Data Book of Astronomy, Institute of Physics Publishing, ISBN 978-0-7503-0620-1
  • Ridpath, Ian (2001), Stars and Planets Guide, Wil Tirion (3rd ed.), Princeton University Press, ISBN 978-0-691-08913-3
  • Ridpath, Ian; Tirion, Wil (2007), Stars and Planets Guide (4th ed.), Collins, London: Princeton University Press, ISBN 978-0691135564
  • Ridpath, Ian, "Aquarius", Star Tales, retrieved 14 March 2013
  • Sherrod, P. Clay; Koed, Thomas L. (2003), A Complete Manual of Amateur Astronomy: Tools and Techniques for Astronomical Observations, Courier Dover Publications, ISBN 9780486152165
  • Sadalmelik, SIMBAD, retrieved 23 April 2012
  • bet Aqr, SIMBAD, retrieved 24 April 2012
  • gam Aqr, SIMBAD, retrieved 24 April 2012
  • Staal, Julius D.W. (1988), The New Patterns in the Sky: Myths and Legends of the Stars (2nd ed.), The McDonald and Woodward Publishing Company, ISBN 978-0-939923-04-5
  • Thompson, Robert Bruce; Thompson, Barbara Fritchman (2007), Illustrated Guide to Astronomical Wonders, O'Reilly Media, ISBN 978-0-596-52685-6
  • Thurston, Hugh (1996), Early Astronomy, Springer, ISBN 978-0-387-94822-5
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.