Wednesday, November 6, 2013

Cassiopeia


Cassiopeia constellation is located in the northern sky. It was named after Cassiopeia, the vain and boastful queen in Greek mythology.
The constellation was first catalogued by the Greek astronomer Ptolemy in the 2nd century. It is easily recognizable in the sky because of its distinctive W shape.
Cassiopeia contains several notable deep sky objects, among them the open clusters Messier 52 and Messier 103, the supernova remnant Cassiopeia A, the star-forming cloud popularly known as the Pacman Nebula, and the White Rose Cluster.
FACTS, LOCATION & MAP
cassiopeia star map,cassiopeia star chart
Cassiopeia Constellation Map, by IAU and Sky&Telescope magazine
Cassiopeia is the 25th largest constellation in the night sky, occupying an area of 598 square degrees.
It lies in the first quadrant of the northern hemisphere (NQ1) and can be seen at latitudes between +90° and -20°.
The neighboring constellations areAndromedaCamelopardalis,CepheusLacerta, andPerseus.
Cassiopeia has three stars with known planets and contains two Messier objects: M103 (NGC 581) and M52 (NGC 7654).
The brightest star in the constellation is Schedar, Alpha Cassiopeiae.
The Perseid meteor shower is associated with the constellation Cassiopeia.
Cassiopeia belongs to the Perseus family of constellations, along with AndromedaAuriga,CepheusCetusLacertaPegasusPerseus, and Triangulum.
MYTH
In mythology, Cassiopeia was the wife of King Cepheus (represented by the neighbouring constellation Cepheus in the sky) of Ethiopia. Once, she boasted that she was more beautiful than the Nereids. The Nereids were the 50 sea nymphs fathered by the Titan Nereus. They were enraged by Cassiopeia’s comments and appealed to Poseidon to punish Cassiopeia for her boastfulness. Poseidon was married to one of the nymphs, Amphitrite.
The sea god obliged and sent Cetus, a sea monster represented by the constellationCetus (the Whale), located in the same region of the sky, to ravage the coast of Cepheus’ kingdom. Cepheus turned to an oracle for help and the oracle told him that, in order to appease Poseidon, he and Cassiopeia had to sacrifice their daughter Andromeda to the sea monster. Reluctantly, they did so, leaving Andromeda chained to a rock for the monster to find. However, she was saved in the last minute by the Greek hero Perseus, who happened to be passing by, saw Andromeda and rescued her from the monster.
Perseus and Andromeda were later married. At the wedding, one of her former suitors, named Phineus, appeared and claimed that he was the only one who had the right to marry Andromeda. There was a fight and Perseus, desperately outnumbered, used the head of Medusa, the monster he had recently slain, to defeat his opponents. One look at Medusa’s head turned them all into stone. In the process, however, the king and queen were also killed because they did not look away from the monster’s head in time.
It was Poseidon who placed Cassiopeia and Cepheus in the sky. Cassiopeia, the myth goes, was condemned to circle the celestial pole forever, and spends half the year upside down in the sky as punishment for her vanity. She is usually depicted on her throne, still combing her hair.
MAJOR STARS IN CASSIOPEIA
Cassiopeia is famous for its distinctive W shape, an asterism formed by five bright stars in the constellation. The stars, from left to right, are Epsilon, Delta, Gamma, Alpha and Beta Cassiopeiae.
Schedar (Shedir) – α Cassiopeiae (Alpha Cassiopeiae)
Schedar (sometimes Shedir) is an orange giant of the spectral type K0IIIa, approximately 228 light years distant.
It is a suspected variable star. Its apparent magnitude can be either slightly brighter or dimmer than Caph (Alpha Cassiopeiae), depending on which photometric system is used. It is in the range from 2.20 to 2.23 magnitudes.

Alpha Cassiopeiae is located at the bottom right of the W asterism.
The star’s traditional name, Schedar, is derived from the Arabic şadr, which means “breast.” The name refers to the star’s position, marking Cassiopeia’s heart.
Caph – β Cassiopeiae (Beta Cassiopeiae)
Beta Cassiopeiae, or Caph, is either a subgiant or giant star belonging to the spectral type F2 III-IV, approximately 54.5 light years distant. It is classified as a Delta Scuti type variable star. The only Delta Scuti variable brighter than Caph is Altair, the brightest star in the constellation Aquila and 12th brightest star in the sky.
Delta Scuti variables, which are also known as Dwarf Cepheids, Al Velae or Al Velorum stars, typically show fluctuations in luminosity due to both radial and non-radial pulsations on their surface. They are usually giants or main sequence stars of spectral types ranging between A0 and F5.
Caph has a mean apparent magnitude of 2.27. Its traditional name is derived from the Arabickaf, which means “palm” (i.e. palm of the Pleiades or reaching from the Pleiades, the famous cluster in Taurus constellation). The star’s other traditional names are al-Sanam al-Nakah and al-Kaff al-Khadib.
Together with the stars Alpheratz in Andromeda and Algenib in Pegasus, Caph was known as one of the Three Guides; three bright stars marking the equinoctial colure, the imaginary line from Caph to Alpheratz to the celestial equator, at a point where the Sun crosses it at each spring and autumn equinox.
The yellow-white star is 28 times brighter than the Sun and four times the size. It is currently in the process of cooling down and will eventually become a red giant.
γ Cassiopeiae (Gamma Cassiopeiae)
Gamma Cassiopeiae is the central star in the W shape and currently the brightest star in the constellation. It is a blue star (spectral type B0.5 IVe), about 610 light years distant, with a luminosity 40,000 times that of the Sun, and having about 15 solar masses.
Gamma Cassiopeiae is an eruptive variable star that serves as a prototype of a class of stars, the Gamma Cassiopeiae variable stars. It exhibits irregular variations in brightness, which ranges between 2.20 magnitudes and 3.40 magnitudes. The star rotates very rapidly and bulges outward along the equator. As a result of its fast spinning, a ‘decretion’ disk of lost mass and material forms around the star, which causes the fluctuations in luminosity.
The Chinese call the star Tsih, which means “the whip.” It also has the nickname Navi, which it got from the American astronaut Virgil Ivan Grissom – Navi is Ivan spelled backwards. The star was used as a navigational reference point by astronauts.
Gamma Cassiopeiae is a spectroscopic binary star, an optical double with a magnitude 11 companion about two arc seconds away, one with a mass comparable to that of the Sun. The orbital period is roughly 204 days.
The star is a known X-ray source. The amount of X-ray radiation that it emits is 10 times higher than that of other B or Be class stars. Gamma Cassiopeiae was the first Be star known (e stands for emission).
Ruchbah – δ Cassiopeiae (Delta Cassiopeiae)
Delta Cassiopeiae is an eclipsing binary star with a period of 460 days. It belongs to the spectral class A5. It is about 99 light years distant and has an apparent magnitude that varies between 2.68 and 2.74. It is the fourth brightest star in the constellation. The star’s traditional name, Ruchbah, comes from the Arabic rukbah, which means “the knee”. Sometimes the star is also known as Ksora.
Segin – ε Cassiopeiae (Epsilon Cassiopeiae)
Epsilon Cassiopeiae is a bright blue-white B-class giant, approximately 440 light years distant. It is 2,500 times more luminous than the Sun. It has an apparent visual magnitude of 3.34. The star’s estimated age is 65 million years and it is at the end of the hydrogen-fusing cycle. Segin is notable for showing extremely weak spectral absorptions of helium.
Achird – η Cassiopeiae (Eta Cassiopeiae)
Eta Cassiopeiae is the nearest star in Cassiopeia to our solar system, lying only 19.4 light years away. It is similar to the Sun; a yellow-white G-class hydrogen fusing dwarf, slightly cooler than the Sun with a surface temperature of 5730 Kelvin. It has an apparent magnitude of 3.45.
Achird has a dimmer companion, an orange K-class dwarf with an apparent magnitude of 7.51, located 11 arc seconds away. The two stars are classified as an RS Canum Venaticorum type variable star; they form a close binary star and have active chromospheres that cause large stellar spots which, in turn, cause variations in the star system’s luminosity. The system’s brightness varies by 0.05 magnitudes.
ζ Cassiopeiae (Zeta Cassiopeiae)
Zeta Cassiopeiae is a blue-white subgiant (spectral type B2IV), approximately 600 light years distant. It has an apparent visual magnitude of 3.67.
Zeta Cassiopeiae is classified as a SPB variable star (Slow Pulsating B star), the first one of its kind discovered to have a magnetic field. The star’s rotation speed is 56 km/s and its rotation period is 5.37 days.
ρ Cassiopeiae (Rho Cassiopeiae)
Rho Cassiopeiae belongs to a very rare class of stars, the yellow hypergiants, only seven of which are currently known in the Milky Way Galaxy. The star belongs to the spectral class G2Ia0e. It is approximately 11,650 light years distant and one of the most luminous stars known. In spite of the distance, Rho Cassiopeiae is visible to the naked eye.
Rho Cassiopeiae is 550,000 times brighter than the Sun, with an absolute magnitude of -7.5. Its apparent visual magnitude varies from 4.1 to 6.2. The star is classified as a semiregular variable. It undergoes enormous outbursts roughly every 50 years, resulting in change in luminosity. In 2000-2001, the star ejected about 10,000 Earth masses in one of these outbursts.
messier 52,cassiopeia constellation
Messier 52 (NGC 7654) - Atlas Image mosaic courtesy of 2MASS, UMass, IPAC-Caltech, NASA, NSF.
Rho Cassiopeiae is suspected to already have exploded as a supernova because it has used up most of its nuclear fuel, but if this is the case, the light from the explosion has yet to reach us.
V509 Cassiopeiae
V509 Cassiopeiae is another G-type hypergiant, at least 7,800 light years distant. The yellow-white star is classified as a semiregular variable. Its luminosity varies between magnitudes 4.75 and 5.5.
DEEP SKY OBJECTS IN CASSIOPEIA
Messier 52 (NGC 7654)
Messier 52 is an open cluster, approximately 5,000 light years distant. It has an apparent magnitude of 5.0 and can be seen with binoculars.
The age of the cluster is estimated to be around 35 million years. It is 13 arc minutes (19 light years) in diameter.
The cluster was discovered by Charles Messier in 1774. The brightest stars in it are two yellow giants of magnitude 7.77 and 8.22.
messier 103,m103,ngc 581
Messier 103 (NGC 581) - Atlas Image mosaic courtesy of 2MASS, UMass, IPAC-Caltech, NASA, NSF
Messier 103 (NGC 581)
Messier 103 is another open cluster in Cassiopeia. It lies approximately 10,000 light years from Earth and contains 172 stars.
The age of the cluster is estimated to be about 25 million years.
The cluster was discovered by the French astronomer Pierre Méchain in 1781. It was the last object Charles Messier entered into his catalogue.
Cassiopeia A
Cassiopeia A is a supernova remnant.
It is notable for being the brightest astronomical radio source in the sky.
It is the strongest radio source in the sky outside the solar system and was one of the first radio sources to be discovered, in 1947.
cassiopeia a,supernova remnant,radio source
Cassiopeia A, photo: Oliver Krause, George H. Rieke, Emeric Le Floch, Karl D. Gordon, Eiichi Egami, Erick Young, John Bieging, Joannah L. Hinz (Steward Observatory), Stephan M. Birkmann, Sascha P. Quanz (Max Planck Institut fur Astronomie), John P. Hughes (Rutgers University), Dean C. Hines (Space Science Institute)
The cloud of material ejected in the explosion is about 10 light years across and is expanding at the rate of 4,000-6,000 km/s. It has a temperature of about 50 million degrees Fahrenheit.
The explosion occurred at an approximate distance of 11,000 years from Earth and the first light of the supernova is believed to have reached us about 300 years ago.
The Pacman Nebula – NGC 281
NGC 281 is an H II region, a large gas cloud in which star formation has recently taken place.
It contains a large amount of ionised atomic hydrogen (H II) which is lit by the ultraviolet light of young, hot, blue stars.
It was nicknamed the Pacman Nebula because of its resemblance to the character from the popular video game.
pacman nebula,cassiopeia,ngc 281
The Pacman Nebula (NGC 281), photo: X-ray: NASA, CXC, CfA, S.Wolk et al; Optical: NSF, AURA, WIYN, Univ. of Alaska, T.A.Rector
It is 9,500 light years from Earth. It was discovered by American astronomer E.E. Barnard in 1883.
The White Rose Cluster (NGC 7789)
NGC 7789 is an open star cluster, approximately 7,600 light years distant.
It has an apparent magnitude of 6.7. It was discovered by the British astronomer Caroline Herschel in 1783.
The cluster is also known as Caroline’s Rose or The White Rose because the loops of stars in it resemble the pattern of rose petals.
NGC 185 (Caldwell 18)
NGC 185 is a dwarf spheroidal galaxy, approximately 2.08 million light years from Earth. It is a satellite galaxy of the Andromeda Galaxy (Messier 31) and forms a physical pair with NGC 185.
The galaxy is classified as a type 2 Seyfert galaxy. It has an active galactic nucleus (AGN).
The galaxy was discovered by the English astronomer John Herschel (Caroline Herschel’s brother) in 1787 and first photographed by the American astronomer James Edward Keeler between 1898 and 1900. He photographed the galaxy using the Crossley telescope (36-inch/910mm), the reflecting telescope located at Lick Observatory in California.
Atypical for a dwarf elliptical galaxy, NGC 185 contains young clusters of stars and shows evidence of star formation that occurred in the cluster until recently.
NGC 147 (Caldwell 17)
NGC 147 is another dwarf spheroidal galaxy in Cassiopeia, approximately 2.53 million light years distant. Like NGC 185, it is a satellite galaxy of the Andromeda Galaxy (Messier 31) and a member of the Local Group of galaxies. It was originally discovered by John Herschel in 1829. It has an apparent visual magnitude of 10.5.

Constellations - Cassiopeia

Star map of CassiopeiaCassiopeia is marked by its W-shape in the sky, with stars ranging from magnitude 2 to 3.5 marking each turn in the W. Like Ursa Major, Cassiopeia is circumpolar and can be seen all year round from northern latitudes.
Cassiopeia lies in the Milky Way; therefore, many objects such as nebulae (clouds of gas and dust) and star clusters lie within it. Scanning Cassiopeia with binoculars will reveal many of them, though the nebulae are a bit faint. Using a telescope is even more revealing.
The Open Cluster M103 is quite easy to find, as are the double stars. Try locating M52 by using the star hopping technique. The objects listed below show up well in a 6" telescope, though some are quite small or sparsely populated, as in the case of M103.
TELESCOPIC OBJECTS
ObjectMagnitudeComments
M526.9Open cluster 100+ stars
M1037.4Open cluster 25 stars
NGC6637.1Open cluster 80 stars
NGC4576.4Open cluster 80 stars

MAIN STARS
NameMagDistanceComments
2.2780 L/YVariable star between 1.6 and 3.2
 Shedir2.2120 L/Y
 Chaph2.242 L/Y
 Ruchbah2.662 L/Y
 Segin3.4520 L/Y

MULTIPLE STARS
NameMag / SeparationDistance
3.4 & 7.5 / 12.2"480 L/Y
4.6 & 6.8 / 2.4"840 L/Y
Chart if the Northern sky

Map of The Constellation of Cassiopeia
Cassiopeia is a constellation in the northern hemisphere, first charted by the Greek astronomer Ptolemy in the 2nd century. It is taken to represent the queen Cassiopeia of the mythical kingdom Ethiopia. In Greek mythology, Cassiopeia offended the Nereids (sea nymphs) by boasting about being more beautiful than them. As punishment for her vanity, she had to sacrifice her daughter Andromeda to appease the sea monster Cetus sent by Poseidon. It is said that, once placed in the sky, Cassiopeia was condemned to circle the celestial pole forever, sometimes hanging upside down, as additional punishment. The constellation is quite easy to spot in the sky because five of its bright stars form a distinctive 'W' shape. 

The constellation Cassiopeia occupies an area of 598 square degrees and contains three stars with known planets. It can be seen at latitudes between +90° and -20° and is best visible at 9 p.m. during the month of November. 

[1959] beta Cassiopeiae or Caph ("palm") is a yellow-white giant with a magnitude of 2.28, classified as a Delta Scuti type variable. It is twice the size of the Sun and 28 times brighter. 

[1878] alpha Cassiopeiae, Shedir or Shedar ("the breast") has a magnitude of 2.25 and is the second brightest star in the constellation. It is an orange giant more than 500 times brighter than the Sun. 

[1880] gamma Cassiopeiae is the central star of the constellation. It is an eruptive variable star. It does not have a traditional Latin or Arabic name, but the Chinesse call it Tsih ("the whip"). At maximum intensity (currently 2.15), the star outshines both alpha and beta Cassiopeiae. Gamma Cassiopeiae spins very rapidly and bulges along the equator, which causes it to lose mass. As a result, a disk forms around the star which is responsible for the variations in brightness and emissions. 

[1881] delta Cassiopeiae, also known as Ksora or Ruchbah ("knee") is an eclipsing binary star about 99 light-years distant. It has an apparent visual magnitude that varies between 2.68 and 2.71. 

[1882] epsilon Cassiopeiae, also called Segin, is a blue-white giant about 442 light-years away from Earth. Its luminosity is 720 times that of the Sun. 

[1891] rho Cassiopeiae and V509 Cassiopeiae are among the most luminous stars visible to the naked eye in the galaxy. [1883] eta Cassiopeiae is a binary star consisting of a yellow dwarf similar to our Sun and an orange dwarf. 

Cassiopeia also has two notable Messier objects, both open star clusters. Messier 52 or NGC 7654 was discovered by Charles Messier in 1774 and can be seen with binoculars. In stronger telescopes, it appears as a rich, V-shaped cluster of faint stars with a bright yellow star on the edge. 

Messier 103 or NGC 581 was the last Messier object to be catalogued by Charles Messier himself. At about 8,000 light-years away, it is one of the more remote open clusters to be catalogued. It contains between 40 and 50 stars, the brightest one of which is Struve 131 or HD 9311. The cluster is faint, but once found, it has the appearance of curving star chains streaming outward from the centre. 

Tycho's Star or CN 1572, observed as a supernova in 1572 and documented by the Danish nobleman and astronomer Tycho Brahe, is also located in Cassiopeia. The star named Tycho G is being studied as a possible companion to the star that created the supernova. The other supernova remnant in the constellation is Cassiopeia A, the strongest radio source outside our solar system that can be observed. The cloud of material left over from the supernova is now about 10 light-years across. 

Finally, the constellation contains an irregular galaxy, IC 10, first discovered by Lewis Swift in 1887. It is somewhat difficult to study because, located near the Milky Way plane, it is obscured by interstellar matter. With an exceptionally high rate of star formation, however, IC 10 is known as the only starburst galaxy in the Local Group. 

Cassiopeia belongs to the Perseus family of constellations, along with CepheusAndromedaPerseusPegasusCetusAuriga,Lacerta and Triangulum

Constellations directly bordering Cassiopeia are CamelopardalisCepheusLacertaAndromeda and Perseus

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