# Ga LAX Y Research Materials

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Red vs. Blue S8 Tex fights Reds and Blues in awesome action sequence
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MACKLEMORE & RYAN LEWIS - CAN'T HOLD US FEAT. RAY DALTON (OFFICIAL MUSIC VIDEO)
Macklemore & Ryan Lewis present the official music video for Can't Hold Us feat. Ray Dalton. Can't Hold Us on iTunes: https://itunes.apple.com/us/album/cant-...
Draw My Life- Jenna Marbles
This video accidentally turned out kind of sad, ME SO SOWWY IT NOT POSED TO BE SAD WHO WANTS HUGS AND COOKIES? Also, FYI for anyone attempting this, it takes...
Steve Jobs vs Bill Gates. Epic Rap Battles of History Season 2.
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Key & Peele: Substitute Teacher
A substitute teacher from the inner city refuses to be messed with while taking attendance.
Draw My Life - Ryan Higa
So i was pretty hesitant to make this video... but after all of your request, here is my Draw My Life video! Check out my 2nd Channel for more vlogs: http://...
David Guetta - Just One Last Time ft. Taped Rai
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Harrison Ford Won't Answer Star Wars Questions
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Rihanna - Where Have You Been
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Fanfiction: Flowers For My Valentine. Read By: PewDiePie & Cry
EPIC RAP BATTLE of MANLINESS
An Epic Rap Battle to determine who is the more manly man. Get the Song on iTunes: http://bit.ly/ERBofManliness Check out the Behind the Scenes: http://youtu...
The giant elliptical galaxy ESO 325-G004

An elliptical galaxy is a galaxy having an approximately ellipsoidal shape and a smooth, nearly featureless brightness profile. They are one of the three main classes of galaxy originally described by Edwin Hubble in his 1936 work The Realm of the Nebulae,[1] along with spiral and lenticular galaxies. They range in shape from nearly spherical to highly flat and in size from tens of millions to over one trillion stars. Originally, Edwin Hubble thought that elliptical galaxies may evolve into spiral galaxies, which later turned out to be false.[2] Stars found inside of elliptical galaxies are very much older than stars found in spiral galaxies.[2]

Most elliptical galaxies are composed of older, low-mass stars, with a sparse interstellar medium and minimal star formation activity, and they tend to be surrounded by large numbers of globular clusters. Elliptical galaxies are believed to make up approximately 10–15% of galaxies in the Virgo Supercluster, and they are not the dominant type of galaxy in the universe overall.[3] They are preferentially found close to the centers of galaxy clusters.[4] Elliptical galaxies are (together with lenticular galaxies) also called "early-type" galaxies (ETG), due to their location in the Hubble sequence, and are found to be less common in the early Universe.

## General characteristics

Elliptical galaxies are characterized by several properties that make them distinct from other classes of galaxy. They are typically spherical or ovoid masses of old stars, starved of star-making gases. The smallest known elliptical galaxy is about one-tenth the size of the Milky Way. The motion of stars in elliptical galaxies is predominantly radial, unlike the disks of spiral galaxies, which are dominated by rotation. Furthermore, there is very little interstellar matter (neither gas nor dust), which results in low rates of star formation, few open star clusters, and few young stars; rather elliptical galaxies are dominated by old stellar populations, giving them red colours. Large elliptical galaxies typically have an extensive system of globular clusters.[5]

The dynamical properties of elliptical galaxies and the bulges of disk galaxies are similar, [6] suggesting that they are formed by the same physical processes, although this remains controversial. The luminosity profiles of both elliptical galaxies and bulges are well fit by Sersic's law.

Elliptical galaxies are preferentially found in galaxy clusters and in compact groups of galaxies.

## Star formation

The traditional portrait of elliptical galaxies paints them as galaxies where star formation finished after an initial burst at high-redshift, leaving them to shine with only their aging stars. Elliptical galaxies typically appear yellow-red, which is in contrast to the distinct blue tinge of most spiral galaxies. In spirals, this blue color emanates largely from the young, hot stars in their spiral arms. Very little star formation is thought to occur in elliptical galaxies, because of their lack of gas compared to spiral or irregular galaxies. However, in recent years, evidence has shown that a reasonable proportion (~25%) of these galaxies have residual gas reservoirs[7] and low level star-formation.[8]

## Sizes and shapes

The central galaxy in this image is a gigantic elliptical galaxy designated 4C 73.08.[9]
The brilliant central object is a supergiant elliptical galaxy, the dominant member of a galaxy cluster with the name MACSJ1423.8+2404.

Elliptical galaxies vary greatly in both size and mass, from as little as a tenth of a kiloparsec to over 100 kiloparsecs, and from 107 to nearly 1013 solar masses.[citation needed] This range is much broader for this galaxy type than for any other. The smallest, the Dwarf elliptical galaxies, may be no larger than a typical globular cluster, but contain a considerable amount of dark matter not present in clusters. Most of these small galaxies may not be related to other ellipticals.

The Hubble classification of elliptical galaxies contains an integer that describes how elongated the galaxy image is. The classification is determined by the ratio of the major (a) to the minor (b) axes of the galaxy's isophotes:

$10 \times \left(1 - \frac{b}{a}\right)$

Thus for a spherical galaxy with a equal to b, the number is 0, and the Hubble type is E0. The limit is about E7, which is believed to be due to a bending instability that causes flatter galaxies to puff up. The most common shape is close to E3. Hubble recognized that his shape classification depends both on the intrinsic shape of the galaxy, as well as the angle with which the galaxy is observed. Hence, some galaxies with Hubble type E0 are actually elongated.

There are two physical types of ellipticals; the "boxy" giant ellipticals, whose shapes result from random motion which is greater in some directions than in others (anisotropic random motion), and the "disky" normal and low luminosity ellipticals, which have nearly isotropic random velocities but are flattened due to rotation.

Dwarf elliptical galaxies have properties that are intermediate between those of regular elliptical galaxies and globular clusters. Dwarf spheroidal galaxies appear to be a distinct class: their properties are more similar to those of irregulars and late spiral-type galaxies.

At the large end of the elliptical spectrum, there is further division, beyond Hubble classification. Beyond gE giant ellipticals, lies D-galaxies and cD-galaxies. These are similar to their smaller brethren, but more diffuse, with larger haloes. Some even appear more akin to lenticular galaxies.

## Evolution

Current thinking is that an elliptical galaxy may be the result of a long process where two or more galaxies of comparable mass, of any type, collide and merge.[citation needed]

Such major galactic mergers are thought to have been common at early times, but may carry on more infrequently today. Minor galactic mergers involve two galaxies of very different masses, and are not limited to giant ellipticals. For example, our own Milky Way galaxy is known to be consuming a couple of small galaxies right now.[citation needed] The Milky Way galaxy is also, depending upon an unknown tangential component, on a collision course in 4–5 billion years with the Andromeda Galaxy. It has been theorized that an elliptical galaxy will result from a merger of the two spirals.[10]

Every bright elliptical galaxy is believed to contain a supermassive black hole at its center. The mass of the black hole is tightly correlated with the mass of the galaxy, via the M–sigma relation. It is believed that black holes may play an important role in limiting the growth of elliptical galaxies in the early universe by inhibiting star formation.[citation needed]

## Examples

SDSS J162702.56+432833.9 is an elliptical galaxy.[11]

## References

1. ^ Hubble, E. P. (1936). The Realm of the Nebulae. New Haven: Yale University Press. ISBN 978-0300025002.
2. ^ a b John, D, (2006), Astronomy, ISBN 1-4054-6314-7, p. 224-225
3. ^ Loveday, J. (February 1996). "The APM Bright Galaxy Catalogue.". Monthly Notices of the Royal Astronomical Society 278 (4): 1025–1048. arXiv:astro-ph/9603040. Bibcode:1996MNRAS.278.1025L.
4. ^ Dressler, A. (March 1980). "Galaxy morphology in rich clusters - Implications for the formation and evolution of galaxies.". The Astrophysical Journal 236: 351–365. Bibcode:1980ApJ...236..351D. doi:10.1086/157753.
5. ^ Binney, J.; Merrifield, M. (1998). Galactic Astronomy. Princeton: Princeton University Press. ISBN 978-0-691-02565-0. OCLC 39108765.
6. ^ Merritt, D. (February 1999). "Elliptical galaxy dynamics". The Astronomical Journal 756 (756): 129–168. arXiv:astro-ph/9810371. Bibcode:1999PASP..111..129M. doi:10.1086/316307.
7. ^ Young, L. M. et al. (June 2011). "The Atlas3D project -- IV: the molecular gas content of early-type galaxies". Monthly Notices of the Royal Astronomical Society 414 (2): 940–967. arXiv:1102.4633. Bibcode:2011MNRAS.414..940Y. doi:10.1111/j.1365-2966.2011.18561.x.
8. ^ Crocker, A. F. et al. (January 2011). "Molecular gas and star formation in early-type galaxies". Monthly Notices of the Royal Astronomical Society 410 (2): 1197–1222. arXiv:1007.4147. Bibcode:2011MNRAS.410.1197C. doi:10.1111/j.1365-2966.2010.17537.x.
9. ^ "Galactic fireflies". ESA/Hubble Picture of the Week. Retrieved 13 February 2013.
10. ^
11. ^ "The Calm after the Galactic Storm". ESA/Hubble Picture of the Week. Retrieved 1 December 2011.
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