Intermediate spiral galaxy

NGC 253 is an intermediate spiral galaxy located in the constellation Sculptor.

An intermediate spiral galaxy is a galaxy that is in between the classifications of a barred spiral galaxy and an unbarred spiral galaxy.^[1]^[2] It is designated as SAB in the galaxy morphological classification scheme.^[1]^[2] By definition, a galaxy is a congregation of stars held together by gravity.^[3] The first intermediate spiral galaxy discovered is the Milky Way, by Galileo, in 1610.^[4] He was the first person with a telescope powerful enough to make such a discovery. Before Galileo, it was thought that all bright objects in the sky were either the planets in the Solar System, moons, comets, or stars. Until the beginning on the twentieth century, astronomers did not know the size of the Universe, but speculated it to be about as big as the Milky Way.^[4] In 1920, at the National Academy of Science, there was a big debate between Harlow Shapley and Heber D. Curtis on whether nebulae are small globular clusters surrounding the Milky Way, or separate galaxies located farther away. Nothing was resolved at the debate; neither side was able to provide conclusive evidence to prove their side correct over their opponent.^[4] In 1923, Edwin Hubble resolved the matter with a photograph that he took of the Andromeda Galaxy. What he found in his photograph was a very bright light source pulsing at a certain rate, a Cepheid variable, located outside the Milky Way. This can be used to determine the distance to it.^[4] Hubble proved that the Universe was full of galaxies, and disproved that the Milky Way was the extent of the Universe.^[4] There are many types of galaxies in the Universe, elliptical, barred spiral galaxies; they vary in shape and size, but on average spiral galaxies are the most abundant.^[5]

Structure

A galaxy starts out as a giant cloud of cold gas. The cloud of gas must be close to absolute zero, if the gas cloud is too hot, the atoms will have too much kinetic energy, and gravity will not be able to condense the cloud. When a cloud reaches a mass of about 10⁹−10¹¹ times the mass of the Sun, the gas cloud will collapse under gravity. For an intermediate spiral galaxy to form, the gas cloud must be rotating, and as the gas coalesces, the gas cloud will flatten out to form a disk shape. The mass remaining constant, to comply with the physical laws which govern the conservation of angular momentum, its rotational velocity will speed up. At the very center of the galaxy, the gas will condense so much under gravitational pressure that a supermassive black hole will form. All spiral galaxies have a black hole at the center of their galaxy, called the galactic nucleus, which range from 10⁶ to 10⁹ times the mass of the Sun.^[4]

The Central Bulge contains Population II stars, which are old stars, devoid of metals, and have low surface temperatures. For this reason the central bulge glows an orange/red color. The disk of the galaxy is full of star formation, and Population I stars, which are metal-rich, with high surface temperatures, causing the disk to glow blue. Surrounding the galaxy is a halo that is made up of old Population II stars, as well as globular clusters, which are groups of Population II stars that are spherical in shape and contain roughly one million stars. Star formation takes place in the spiral arms of the galaxy. The rotation velocity of the galaxy is nearly uniform throughout the entire disk. The reason for this is due to an even bigger halo of postulated dark matter that extends beyond the size of the galaxy. This dark matter is to date made up of an unknown substance which radiates no light, and accounts for up to 90% of the mass in a total galaxy.^[4]

Historical background

Main article: Great Debate (astronomy)

In 1920, at the Academy of science, two scientists argued about the distance to nebulae. Harlow Shapley argued that these nebulae were within the Milky Way and located in the halo as globular clusters. Heber D. Curtis disagreed and argued that these nebulae were much more distant, and were located in distant galaxies. Both debated that their idea was right, yet neither of them could provide concrete data to prove they were right, ending the debate in a stalemate. In 1923, Hubble took a picture of the Andromeda Galaxy and noticed something peculiar that no one had notice before, a Cepheid variable located in a globular cluster. Using the equation m-M=5log d-5, Hubble was able to find the distance to these remote stars, and finally prove the existence of other galaxies and the size of the Universe. Another discovery was made in 1930, by Robert J Trumpler, which unlocked more understanding of distant galaxies. While conducting an experiment on the brightness of a galaxy and its distance from Earth, his result of the galaxy's luminosity did not match its experimental value. He concluded that there was dust between Earth and the galaxy that obscures some of the light, making it dimmer. This dust is called interstellar extinction, and is made up or small rock and dust particles that lie within the plan of a galaxy. The dust particles scatter blue light, which has a smaller waves length, and allows most red light, which has longer wavelengths than blue light, to pass through.^[4]

Grades

Under the de Vaucouleurs classification system, SAB-galaxies are intermediate between SA-galaxies and SB-galaxies

Example	Type	Information	Notes
	SAB0-	SAB0- is a type of lenticular galaxy
	SAB0	SAB0 is a type of lenticular galaxy
	SAB0+	SAB0+ is a type of lenticular galaxy
	SAB0/a	SAB0/a can also be considered a type of intermediate lenticular galaxy
Messier 65	SABa		M65 is an "SAB(rs)a"
NGC 4725	SABab		NGC 4725 is an "SAB(r)ab pec"
Messier 66	SABb		M66 is an "SAB(s)b"
Messier 106	SABbc		M106 is an "SAB(s)bc"
Sculptor Galaxy	SABc		Sculptor is an "SAB(s)c"
NGC 2403	SABcd		NGC 2403 is an "SAB(s)cd"
	SABd
	SABdm	SABdm can also be considered a type of intermediate Magellanic spiral
NGC 4625	SABm	SABm is a type of Magellanic spiral (Sm)	NGC 4625 is an "SAB(rs)m pec"

References

1 2 "Building Galaxies", Leslie Kipp Hunt, 15 October 2004
1 2 "Galaxy Formation", Malcolm S. Longair, 1998, Springer, ISSN 0941-7834
↑ Sparke & Gallagher III 2000
1 2 3 4 5 6 7 8 Kaufmann III, William. Universe. W.H. Freeman and Company, 2014.
↑ Redd, Nola Taylor "Spiral Galaxy Facts & Definition | Space.com." Space.com. N.p., 15 Aug. 2013. Web. 11 Feb. 2015.

Galaxies

Morphology	Disc galaxy Lenticular galaxy barred unbarred Spiral galaxy Anemic galaxy barred flocculent grand design intermediate Magellanic unbarred Dwarf galaxy elliptical irregular spheroidal spiral Elliptical galaxy cD-galaxy Irregular galaxy barred Peculiar galaxy Ring galaxy Polar

Structure	Bar Bulge Dark matter halo Disc Galactic halo corona Galactic plane Interstellar medium Protogalaxy Spiral arm Supermassive black hole

Active nuclei	Blazar LINER Markarian galaxies Quasar Radio galaxy X-shaped Relativistic jet Seyfert galaxy

Energetic galaxies	LAE LIRG Starburst galaxy BCD Pea Hot, dust-obscured galaxies (Hot DOGs)

Low activity	LSB UDG

Interaction	Field galaxy Galactic tide Galaxy cloud Galaxy groups and clusters Galaxy group Galaxy cluster Brightest cluster galaxy Fossil galaxy group Interacting galaxy merger Jellyfish galaxy Satellite galaxy Stellar stream Superclusters Walls Void galaxy Voids and supervoids

Lists	Galaxies Galaxies named after people Largest Nearest Polar-ring galaxies Ring galaxies Spiral galaxies Groups and clusters Large quasar groups Quasars Superclusters Voids

See also	Dark galaxy Extragalactic astronomy Faint blue galaxy Galactic astronomy Galactic center Galactic coordinate system Galactic empire Galactic habitable zone Galactic magnetic fields Galactic orientation Galactic quadrant Galactic ridge Galaxy color–magnitude diagram Galaxy formation and evolution Galaxy rotation curve Illustris project Intergalactic dust Intergalactic stars Intergalactic travel Population III stars Cosmos Redshift 7 galaxy

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