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In observational astronomy, an asterism is a popularly-known pattern or group of stars that can be seen in the night sky. This colloquial definition[a] makes it appear quite similar to a constellation,[1] but they differ in that a constellation is a formally-named area of the sky and all the celestial objects within it, representing an object, person, or animal, often mythological; while an asterism is a visually obvious collection of stars and the lines used to mentally connect them. As such, asterisms do not have officially determined boundaries and are therefore a more general concept which may refer to any identified pattern of stars. This distinction between terms remains somewhat inconsistent, varying among published sources. An asterism may be understood as an informal group of stars within the area of an official or defunct former constellation, or crossing the boundaries of two or more constellations.[2]

Asterisms range from simple shapes of just a few stars to more complex collections of many stars, covering large portions of the sky or less than a degree. The stars themselves may be bright naked-eye objects or fainter, even telescopic, but they are generally all of a similar brightness to each other. The larger brighter asterisms are useful for people who are familiarizing themselves with the night sky. For example, the asterism known as The Plough, Charles' Wain, the Big Dipper, etc. comprises the seven brightest stars in the International Astronomical Union (IAU) recognised constellation Ursa Major. Another is the asterism of the Southern Cross, whose recognised constellation is Crux.

Asterisms may coincide with true star clusters. For example, the open clusters The Pleiades or Seven Sisters and The Hyades in Taurus are sometimes referred to as asterisms, as is the much fainter NGC 2169.

Background of asterisms and constellations

In many early civilizations, it was already common to associate groups of stars in connect-the-dots stick-figure patterns; some of the earliest records are those of ancient India in the Vedanga Jyotisha and the Babylonians.[citation needed] This process was essentially arbitrary, and different cultures have identified different constellations, although a few of the more obvious patterns tend to appear in the constellations of multiple cultures, such as those of Orion and Scorpius. As anyone could arrange and name a grouping of stars there was no distinct difference between a constellation and an asterism. e.g. Pliny the Elder (23–79 AD) in his book Naturalis Historia refers and mentions 72 asterisms.[3]

A general list containing 48 constellations likely began to develop with the astronomer Hipparchus (c. 190 – c. 120 BC ), and was mostly accepted as standard in Europe for 1,800 years. As constellations were considered to be composed only of the stars that constituted the figure, it was always possible to use any leftover stars to create and squeeze in a new grouping among the established constellations.[citation needed]

Furthermore, exploration by Europeans to other parts of the globe exposed them to stars unknown to them. Two astronomers particularly known for greatly expanding the number of southern constellations were Johann Bayer (1572–1625) and Nicolas Louis de Lacaille (1713–1762). Bayer had listed twelve figures made out of stars that were too far south for Ptolemy to have seen; Lacaille created 14 new groups, mostly for the area surrounding South Celestial Pole. Many of these proposed constellations have been formally accepted, but the rest have historically remained as asterisms.[citation needed]

In 1928, the International Astronomical Union (IAU) precisely divided the sky into 88 official constellations following geometric boundaries encompassing all of the stars within them. Any additional new selected groupings of stars or former constellations are often considered as asterisms. However, depending on the particular literature source, any technical distinctions between the terms 'constellation' and 'asterism' often remain somewhat ambiguous.[citation needed]
Large or bright asterisms

Component stars of asterisms are bright and mark out simple geometric shapes.

The Great Diamond consisting of Arcturus, Spica, Denebola, and Cor Caroli.[4] An east-west line from Arcturus to Denebola forms an equilateral triangle with Cor Caroli to the North, and another with Spica to the South. The Arcturus, Regulus, Spica triangle is sometimes given the name Spring Triangle.[5] Together these two triangles form the Diamond. Formally, the stars of the Diamond are in the constellations Boötes, Virgo, Leo, and Canes Venatici.
The Summer Triangle of Deneb, Altair, and Vega – α Cygni, α Aquilae, and α Lyrae – is easily recognized in the northern hemisphere summer skies, as its three stars are all of the 1st magnitude.[6] The stars of the Triangle are in the band of the Milky Way which marks the galactic equator, and are in the direction of the galactic center.
The Great Square of Pegasus is the quadrilateral formed by the stars Markab, Scheat, Algenib, and Alpheratz, representing the body of the winged horse.[7] The asterism was recognized as the constellation ASH.IKU "The Field" on the MUL.APIN cuneiform tablets from about 1100 to 700 BC.[8]
The Winter Hexagon includes one-third of the 1st-magnitude stars visible in the sky (seven of twenty-one) with Capella, Aldebaran, Rigel, Sirius, Procyon, and Pollux, with 2nd-magnitude Castor on the periphery, and Betelgeuse off-center.[6] Although somewhat flattened, and thus more elliptical than circular, the figure is so large that it cannot be taken in all at once, thus making the lack of true circularity less noticeable. (The projection in the chart exaggerates the stretching.) Some prefer to regard it as a Heavenly 'G'.[9]
The Winter Triangle is visible in the northern sky's winter and comprises the first magnitude stars Procyon, Betelgeuse and Sirius.
The Lightning Bolt, visible in the northern sky's summer and autumn, is useful for orienting among constellations. From north to south, it consists of the stars Epsilon Pegasi, Alpha Aquarii, Beta Aquarii and Delta Capricorni.

Constellation based asterisms
The Big Dipper asterism

A familiar asterism is the Big Dipper, Plough or Charles's Wain, which is composed of the seven brightest stars in Ursa Major.[9] These stars delineate the Bear's hindquarters and exaggerated tail, or alternatively, the "handle" forming the upper outline of the bear's head and neck. With its longer tail, Ursa Minor hardly appears bearlike at all, and is widely known by its pseudonym, the Little Dipper.
The Northern Cross in Cygnus.[6] The upright runs from Deneb (α Cyg) in the Swan's tail to Albireo (β Cyg) in the beak. The transverse runs from ε Cygni in one wing to δ Cygni in the other.
The Fish Hook is the traditional Hawaiian name for Scorpius. The image will be even more obvious if the chart's lines from Antares (α Sco) to Beta Scorpii (β Sco) and Pi Scorpii (π Sco) are replaced with a line from Beta through Delta Scorpii (δ Sco) to Pi forming a large capped "J."[citation needed]
The Southern Cross is an asterism by name, but the whole area is now recognised as the constellation Crux. The main stars are Alpha, Beta, Gamma, Delta, and arguably also Epsilon Crucis. Earlier, Crux was deemed an asterism when Bayer created it in Uranometria (1603) from the stars in the hind legs of Centaurus, decreasing the size of Centaur. These same stars were probably identified by Pliny the Elder in his Naturalis Historia as the asterism 'Thronos Caesaris.'[3]
Adding vertical lines to connect the limbs at the left and right in the main diagram of Hercules will complete the figure of the Butterfly.[10]
Although hardly an ancient notion, it is easy to see why the Ice Cream Cone is sometimes applied to Boötes.[11] It is even better known as the Kite.[12]
The stars of Cassiopeia form a W which is often used as a nickname.[13]

Some asterisms may also be part of a constellation referring to the traditional figuring of the whole outline. For example, there are:

Orion's Belt/The Belt Of Orion
The Y in Aquarius (historically called "the Urn")
Hercules's Club[citation needed]

There are many others.[9]
Commonly recognised asterisms
The "Teapot" asterism in Sagittarius. The Milky Way appears as "steam" coming from the spout.

Other asterisms are also composed of stars from one constellation, but do not refer to the traditional figures.

Four other stars (Beta, Upsilon, Theta, and Omega Carinae) form a well-shaped diamond — the Diamond Cross.[14]
The Saucepan or Pot, being the same stars as the Belt and Sword of Orion. The end of the handle is at ι Orionis, with the far rim at η Orionis.[citation needed]
The four central stars in Hercules, Epsilon (ε Her), Zeta (ζ Her), Eta (η Her), and Pi (π Her), form the well-known Keystone.[6]
The curve of stars at the front end of the Lion from Epsilon (ε Leo) to Regulus (α Leo), looking much like a mirror-image question mark, has long been known as the Sickle.[9]
The brighter stars of Sagittarius make a well-formed Teapot.[15] (The Large Sagittarius Star Cloud appears to be steam emerging from the "spout".)
Four bright stars in Delphinus (Sualocin or α Delphini, Rotanev or β Delphini, γ Delphini and δ Delphini) form Job's Coffin.[9]
The Terebellum is a small quadrilateral of four faint stars (Omega, 59, 60, 62) in Sagittarius' hindquarters.[16]
Just south of Pegasus, the western fish of Pisces is home to the Circlet formed from Gamma (γ Piscium), Kappa (κ Piscium), Lambda (λ Piscium), TX Piscium, Iota (ι Piscium), and Theta (θ Piscium).[6][9]
Dubhe and Merak (Alpha and Beta Ursae Majoris), the two stars at the end of the bowl of the Big Dipper are habitually called The Pointers:[17] a line from β to α and continued for a bit over five times the distance between them, arrives at the North Celestial Pole and the star Polaris (α UMi/Alpha Ursae Minoris), the North Star.
Rigil Kentaurus (α Centauri) and Hadar (β Centauri) are the Southern Pointers leading to the Southern Cross[18] and thus helping to distinguish Crux from the False Cross.

Cross-border asterisms

Other asterisms that are formed from stars in more than one constellation.

There is another large asterism which, like the Diamond of Virgo, is composed of a pair of equilateral triangles. Sirius (α CMa), Procyon (α CMi), and Betelgeuse (α Ori) form one to the North (Winter Triangle) while Sirius, Naos (ζ Pup), and Phakt (α Col) form another to the South. Unlike the Diamond, however, these triangles meet, not base-to-base, but vertex-to-vertex, forming the Egyptian X. The name derives from both the shape and, because the stars straddle the Celestial Equator, it is more easily seen from south of the Mediterranean than in Europe.[citation needed]
The Lozenge is a small diamond formed from three stars – Eltanin, Grumium, and Rastaban (Gamma, Xi, and Beta Draconis) – in the head of Draco and one – Iota Herculis – in the foot of Hercules.[citation needed]
The diamond-shaped False Cross is composed of the four stars Alsephina (δ Velorum), Markeb (κ Velorum), Avior (ε Carinae), and Aspidiske (ι Carinae).[14] Although its component stars are not quite as bright as those of the Southern Cross, it is somewhat larger and better shaped than the Southern Cross, for which it is sometimes mistaken, causing errors in astronavigation. Like the Southern Cross, three of its main four stars are whitish and one orange.[19]
From latitudes above 40 degrees north especially, a prominent upper-case Y is formed by Arcturus (α Boötis), Seginus (γ Boötis) and Izar (ε Boötis), and Alpha Coronae Borealis (Alphecca or Gemma). Alpha Coronae Borealis is far brighter than either Delta or Beta Bootis, distorting the "kite" or "ice-cream cone" shape of Bootes. From the United Kingdom in particular, where there is serious light pollution in many areas and also twilight all night for much of the time these constellations appear, this "Y" is often visible while β and δ Bootis and the other stars in Corona Borealis are not.[citation needed]

Telescopic asterisms
The "37" or "LE" of NGC 2169, in Orion. It is visible through a pair of binoculars.

Asterisms range from the large and obvious to the small, and even telescopic.

The 37 or LE of NGC 2169, in Orion.[20]
The Engagement Ring has the north star Polaris as the diamond, at one end of a ring of much fainter stars about one degree across.[21]
The Broken Engagement Ring, in Ursa Major, at 10:51 / +56°10' (preceding β Ursae Majoris, Merak).[22]
The Christmas Tree shape of the Christmas Tree Cluster, in Monoceros. It is made up of about approximately 40 stars.[23]
The Coathanger, in Vulpecula.[24]
Kemble's Cascade, a chain of stars that ends in open cluster NGC 1502, in Camelopardalis.[24]
Napoleon's Hat (Picot 1), in Bootes (south of α Bootis, Arcturus).[citation needed]
The Ring of the Nibelungen (Ferrero 27), named after the 1857 German epic drama, in Draco, at 15:57 / +62°32' (near galaxy NGC 6015).[25][26]
The V-shaped Messier 73 was determined to be an asterism in 2002.[27]

See also

Australian Aboriginal astronomy
Chinese constellation
Nakshatra

Notes

In usage, 'constellation' is sometimes a synonym of 'asterism', which reflects the fact that the respective words in Latin (constellatio) and Greek (ἀστερισμός, asterismos), from which the English terms are derived, are synonymous. While a terminological distinction may be present in English, such a distinction does not necessarily occur in other languages.

References

"An Etymological Dictionary of Astronomy and Astrophysics: constellation". Dictionary.obspm.fr. January 2018.
"An Etymological Dictionary of Astronomy and Astrophysics: asterism". Dictionary.obspm.fr. January 2018.
Allen, Richard H. (1899). Star Names: Their Lore and Meaning. Dover Publication. p. 11, p. 184–185. ISBN 978-0-486-21079-7.
AstronomyOnline: Image of Big Dipper, Diamond of Virgo, The Sail, Sickle, and Asses and the Manger, Astronomyonline.org
Spring triangle at Space.com, Accessed March 2011
"Warren Rupp Observatory: Table of Asterisms". Wro.org. Retrieved 10 March 2019.
AstronomyOnline: Image of Cassiopeia, Square of Pegasus, The Circlet, and Y of Aquarius, Astronomyonline.org
Rogers, J. H. (1 February 1998). "Origins of the ancient constellations: I. The Mesopotamian traditions". Journal of the British Astronomical Association. 108: 9–28. Bibcode:1998JBAA..108....9R.
"Asterisms". 14 February 2010. Archived from the original on 2010-02-14. Retrieved 10 March 2019.
Space.com: Hercules: See the Celestial Strongman Archived May 23, 2009, at the Wayback Machine
History of the Constellations: Bootes Archived May 12, 2011, at the Wayback Machine
"Astronomy Online - View Images Template". Astronomyonline.org. Retrieved 10 March 2019.
"Astronomy Online - View Images Template". Astronomyonline.org. Retrieved 10 March 2019.
"Starry Night Photography - Southern Cross, False Cross & Diamond Cross". Southernskyphoto.com. Retrieved 10 March 2019.
"Astronomy Online - View Images Template". Astronomyonline.org. Retrieved 10 March 2019.
"LacusCurtius • Allen's Star Names — Sagittarius". Penelope.uchicago.edu. Retrieved 10 March 2019.
Darling, David. "Ursa Major". Daviddarling.info. Retrieved 10 March 2019.
Darling, David. "Centaurus". Daviddarling.info. Retrieved 10 March 2019.
Moore, Patrick (2010). Patrick Moore's Astronomy: Teach Yourself. Hachette. ISBN 978-1444129779.
Constellation Guide, Orion Constellation (accessed 2014-03-03)
Chaple, Glenn (May 2019). "Spot the ring that hides in the Little Dipper". Astronomy.
"Asterisms – Broken Engagement Ring". Retrieved 2020-09-11.
"A star hop through Monoceros including M 50, The Christmas Tree Cluster (NGC 2264), Hubble's Variable Nebula (NGC 2261), NGC 2244, NGC 2301, The Rosette Nebula, 11 Beta Monocerotis, Harrington's Star 17 and Harrington's Star 18". Backyard-astro.com. Retrieved 10 March 2019.
"Asterisms". Deep-sky.co.uk. Retrieved 10 March 2019.
French, Sue (June 2017). "Deep Sky Wonders: Doodles in the Sky". Sky & Telescope: 56.
"Mon catalogue d'amas d'étoiles". Splendeurs du ciel profond. Retrieved 2020-05-27.

M. Odenkirchen & C. Soubiran (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. S2CID 15545816.

Bibliography

Allen, Richard Hinckley (1969). Star Names: Their Lore and Meaning. Dover Publications Inc. (Reprint of 1899 original). ISBN 0-486-21079-0.
Burnham, Robert (1978). Burnham's Celestial Handbook (3 vols). Dover Publications Inc. ISBN 0-486-23567-X, ISBN 0-486-23568-8, ISBN 0-486-23673-0.
Pasachoff, Jay M. (2000). A Field Guide to the Stars and Planets (4th ed.). Houghton Mifflin Co. ISBN 0-395-93431-1

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