Misplaced Pages

Virgo Cluster

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.

The Virgo Cluster is a large cluster of galaxies whose center is 53.8 ± 0.3 Mly (16.5 ± 0.1 Mpc ) away in the constellation Virgo . Comprising approximately 1,300 (and possibly up to 2,000) member galaxies, the cluster forms the heart of the larger Virgo Supercluster , of which the Local Group (containing our Milky Way galaxy ) is a member. The Local Group actually experiences the mass of the Virgo Supercluster as the Virgocentric flow . It is estimated that the Virgo Cluster's mass is 1.2 × 10 M ☉ out to 8 degrees of the cluster's center or a radius of about 2.2 Mpc.

#689310

39-483: Many of the brighter galaxies in this cluster, including the giant elliptical galaxy Messier 87 , were discovered in the late 1770s and early 1780s and subsequently included in Charles Messier 's catalogue of non-cometary fuzzy objects. Described by Messier as nebulae without stars, their true nature was not recognized until the 1920s. The cluster subtends a maximum arc of approximately 8 degrees centered in

78-423: A rogue star , is a star not gravitationally bound to any galaxy . Although a source of much discussion in the scientific community during the late 1990s, intergalactic stars are now generally thought to have originated in galaxies, like other stars, before being expelled as the result of either galaxies colliding or of a multiple-star system traveling too close to a supermassive black hole , which are found at

117-532: A fairly heterogeneous mixture of spiral and elliptical galaxies. As of 2004, it is believed that the spiral galaxies of the cluster are distributed in an oblong prolate filament , approximately four times as long as it is wide, stretching along the line of sight from the Milky Way . The elliptical galaxies are more centrally concentrated than the spiral galaxies. The cluster is an aggregate of at least three separate subclumps : Virgo A , centered on M87 ,

156-409: A hitherto unknown infrared component in the background from the cosmos . Since then, several other anisotropies at other wavelengths – including blue and x-ray – have been detected with other space telescopes and they are now collectively described as the diffuse extragalactic background radiation . Several explanations have been discussed by scientists, but in 2012, it

195-529: A second centered on the galaxy M86 , and Virgo B , centered on M49 , with some authors including a Virgo C subcluster, centered on the galaxy M60 as well as a LVC (Low Velocity Cloud) subclump, centered on the large spiral galaxy NGC 4216 . Notably, the giant elliptical galaxy M87 contains a supermassive black hole , whose event horizon was observed by the Event Horizon Telescope Collaboration in 2019. Of all of

234-557: A spherical galaxy with a equal to b , the number is 0, and the Hubble type is E0. While the limit in the literature is about E7, it has been known since 1966 that the E4 to E7 galaxies are misclassified lenticular galaxies with disks inclined at different angles to our line of sight. This has been confirmed through spectral observations revealing the rotation of their stellar disks. Hubble recognized that his shape classification depends both on

273-469: A subset of the "early-type" galaxy population. Most elliptical galaxies are composed of older, low-mass stars , with a sparse interstellar medium , and they tend to be surrounded by large numbers of globular clusters . Star formation activity in elliptical galaxies is typically minimal; they may, however, undergo brief periods of star formation when merging with other galaxies. Elliptical galaxies are believed to make up approximately 10–15% of galaxies in

312-426: 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 : Thus for

351-490: Is a table of bright or notable objects in the cluster and their subunit (subcluster). Note that in some cases a galaxy may be considered in a different subunit by other researchers (sources:) Fainter galaxies within the cluster are usually known by their numbers in the Virgo Cluster Catalog, particularly members of the numerous dwarf galaxy population. Elliptical galaxy An elliptical galaxy

390-506: Is a type of galaxy with an approximately ellipsoidal shape and a smooth, nearly featureless image. They are one of the four main classes of galaxy described by Edwin Hubble in his Hubble sequence and 1936 work The Realm of the Nebulae , along with spiral and lenticular galaxies. Elliptical (E) galaxies are, together with lenticular galaxies (S0) with their large-scale disks, and ES galaxies with their intermediate scale disks,

429-468: Is easier for stars to escape a smaller galaxy's gravitational pull, than that of a large galaxy. However, when large galaxies collide, some of the gravitational disturbances might also expel stars. In 2015, a study of supernovae in intergalactic space suggested that the progenitor stars had been expelled from their host galaxies during a galactic collision between two giant ellipticals, as their supermassive black hole centres merged. Another hypothesis, that

SECTION 10

#1732791071690

468-516: Is filled with a hot, rarefied plasma at temperatures of 30 million kelvins that emits X-Rays . Within the intracluster medium (ICM) are found a large number of intergalactic stars (up to 10% of the stars in the cluster), including some planetary nebulae . It is theorized that these were expelled from their home galaxies by interactions with other galaxies . The ICM also contains some globular clusters , possibly stripped off dwarf galaxies , and even at least one star formation region . Below

507-538: Is headed toward the constellation Cancer, outbound at 1.43 million miles per hour and 180,000 light-years away." In the late 2000s, a diffuse glow from the intergalactic medium, but of unknown origin, was discovered. In 2012, it was suggested and shown that it might originate from intergalactic stars. Subsequent observations and studies have elaborated on the issue and described the diffuse extragalactic background radiation in more detail. Some Vanderbilt astronomers report that they have identified more than 675 stars at

546-415: Is not mutually exclusive to the galactic collisions hypothesis, is that intergalactic stars were ejected from their galaxy of origin by a close encounter with the supermassive black hole in the galaxy center, should there be one. In such a scenario, it is likely that the intergalactic star(s) was originally part of a multiple star system where the other stars were pulled into the supermassive black hole and

585-422: Is observed for the similar changes that occur in sound when an object is moving away or toward something. But the speeds found are only estimated minimums, as in reality their speeds may be larger than the speeds found by the researchers. "One of the newfound exiles is moving in the direction of the constellation Ursa Major at about 1.25 million mph with respect to the galaxy. It is 240,000 light-years away. The other

624-409: Is redder and metal-rich, and another that is bluer and metal-poor. The dynamical properties of elliptical galaxies and the bulges of disk galaxies are similar, suggesting that they may be 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 , and a range of scaling relations between

663-510: Is still a mystery, but several scientifically credible hypotheses have been suggested and published by astrophysicists. The most common hypothesis is that the collision of two or more galaxies can toss some stars out into the vast empty regions of intergalactic space . Although stars normally reside within galaxies, they can be expelled by gravitational forces when galaxies collide. It is commonly believed that intergalactic stars may primarily have originated from extremely small galaxies, since it

702-411: 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 colors. Large elliptical galaxies typically have an extensive system of globular clusters . They generally have two distinct populations of globular clusters: one that

741-725: The Hubble Space Telescope discovered a large number of intergalactic stars in the Virgo cluster of galaxies. Later in the 1990s, scientists discovered another group of intergalactic stars in the Fornax cluster of galaxies. In 2005, at the Smithsonian Center for Astrophysics, Warren Brown and his team attempted to measure the speeds of hypervelocity stars by using the Doppler Technique, by which light

780-476: The M–sigma relation which relates the velocity dispersion of the surrounding stars to the mass of the black hole at the center. Elliptical galaxies are preferentially found in galaxy clusters and in compact groups of galaxies . Unlike flat spiral galaxies with organization and structure, elliptical galaxies are more three-dimensional, without much structure, and their stars are in somewhat random orbits around

819-519: The Virgo Supercluster , and they are not the dominant type of galaxy in the universe overall. They are preferentially found close to the centers of galaxy clusters . Elliptical galaxies range in size from dwarf ellipticals with tens of millions of stars, to supergiants of over one hundred trillion stars that dominate their galaxy clusters. Originally, Edwin Hubble hypothesized that elliptical galaxies evolved into spiral galaxies, which

SECTION 20

#1732791071690

858-482: The Virgo cluster of galaxies. These stars are notable for their isolation, residing approximately 300,000 light-years away from the nearest galaxy. Despite the difficulty in determining their exact mass, it is estimated that intergalactic stars constitute around 10 percent of the mass of the Virgo cluster , potentially outweighing any of its 2,500 galaxies In 2012, astronomers identified approximately 675 rogue stars at

897-453: The "disky" normal and dwarf ellipticals , which contain disks. This is, however, an abuse of the nomenclature, as there are two types of early-type galaxy, those with disks and those without. Given the existence of ES galaxies with intermediate-scale disks, it is reasonable to expect that there is a continuity from E to ES, and onto the S0 galaxies with their large-scale stellar disks that dominate

936-444: The center of many galaxies. Collectively, intergalactic stars are referred to as the intracluster stellar population, or IC population for short, in the scientific literature. The hypothesis that stars exist only in galaxies was disproven in 1997 with the discovery of intergalactic stars. The first to be discovered were in the Virgo cluster of galaxies, where some one trillion are now surmised to exist. The way these stars arise

975-411: The center. The largest galaxies are supergiant ellipticals, or type-cD galaxies . Elliptical galaxies vary greatly in both size and mass with diameters ranging from 3,000 light years to more than 700,000 light years, and masses from 10 to nearly 10 solar masses. This range is much broader for this galaxy type than for any other. The smallest, the dwarf elliptical galaxies , may be no larger than

1014-482: The cluster by approximately ten percent. Molecular gasses in Virgo Cluster has been swept away by a huge cosmic broom that is preventing nearby galaxies from birthing new stars. The actual cause of it has been a long standing mystery in astrophysics . According to scientists, it occurs because of the extreme environment of the Virgo Cluster. As with many other rich galaxy clusters, Virgo's intracluster medium

1053-399: The constellation Virgo. Although some of the cluster's most prominent members can be seen with smaller instruments, a 6-inch telescope will reveal about 160 of the cluster's galaxies on a clear night. Its brightest member is the elliptical galaxy Messier 49 ; however its most famous member is the elliptical galaxy Messier 87 , which is located in the center of the cluster. The cluster is

1092-630: The disks of galaxies tend to have low metallicity and are older. Some recently discovered supernovae have been confirmed to have exploded hundreds of thousands of light-years from the nearest star or galaxy. Most intergalactic star candidates found in the neighborhood of the Milky Way seem not to have an origin in the Galactic Center but in the Milky Way disk or elsewhere. In 2005, the Spitzer Space Telescope revealed

1131-474: The edge of the Milky Way, between the Andromeda Galaxy and the Milky Way. They argue that these stars are hypervelocity (intergalactic) stars that were ejected from the Milky Way's Galactic Center . These stars are red giants with a high metallicity (a measure of the proportion of chemical elements other than hydrogen and helium within a star) indicating an inner galactic origin, since stars outside

1170-406: The elliptical galaxies' structural parameters unify the population. Every massive elliptical galaxy contains a supermassive black hole at its center. Observations of 46 elliptical galaxies, 20 classical bulges, and 22 pseudobulges show that each contain a black hole at the center. The mass of the black hole is tightly correlated with the mass of the galaxy, evidenced through correlations such as

1209-521: The galaxy cluster within which they reside than the centrally-located giant galaxy. In recent years, evidence has shown that a reasonable proportion (~25%) of early-type (E, ES and S0) galaxies have residual gas reservoirs and low-level star formation. Herschel Space Observatory researchers have speculated that the central black holes in elliptical galaxies keep the gas from cooling enough for star formation. Intergalactic star An intergalactic star , also known as an intracluster star or

Virgo Cluster - Misplaced Pages Continue

1248-412: 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. It is sometimes said that there are two physical types of ellipticals: the giant ellipticals with slightly "boxy"-shaped isophotes, whose shapes result from random motion which is greater in some directions than in others (anisotropic random motion); and

1287-456: The light at large radii. 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's classification. Beyond gE giant ellipticals, lies D-galaxies and cD-galaxies . These are similar to their smaller brethren, but more diffuse, with large haloes that may as much belong to

1326-473: The main cluster. The large mass of the cluster is indicated by the high peculiar velocities of many of its galaxies, sometimes as high as 1,600 km / s with respect to the cluster's center. The Virgo cluster lies within the Virgo Supercluster , and its gravitational effect slows down the nearby galaxies. The large mass of the cluster has the effect of slowing down the recession of the Local Group from

1365-430: The process of infalling to merge with them, plus other farther isolated galaxies and galaxy groups (like the galaxy cloud Coma I ) that are also attracted by the gravity of Virgo to merge with it in the future. This strongly suggests the Virgo cluster is a dynamically young cluster that is still forming. Other two nearby aggregations known as M Cloud , W Cloud , and W' Cloud seem to be background systems independent of

1404-448: The soon-to-be intergalactic star was accelerated and ejected away at very high speeds. Such an event could theoretically accelerate a star to such high speeds that it becomes a hypervelocity star , thereby escaping the gravitational well of the entire galaxy. In this respect, model calculations (from 1988) predict the supermassive black hole in the center of our Milky Way galaxy to expel one star every 100,000 years on average. In 1997,

1443-504: The subclumps, Virgo A , formed by a mixture of elliptical , lenticular , and (usually) gas-poor spiral galaxies , is the dominant one, with a mass of approximately 10 M ☉ , which is approximately an order of magnitude larger than the other two subclumps. The three subgroups are in the process of merging to form a larger single cluster and are surrounded by other smaller galaxy clouds , mostly composed of spiral galaxies, known as N Cloud , S Cloud , and Virgo E that are in

1482-465: Was later discovered to be false, although the accretion of gas and smaller galaxies may build a disk around a pre-existing ellipsoidal structure. Stars found inside of elliptical galaxies are on average much older than stars found in spiral galaxies. Elliptical galaxies are characterized by several properties that make them distinct from other classes of galaxy. They are spherical or ovoid masses of stars, starved of star-making gases. Furthermore, there

1521-433: Was suggested and shown how for the first time this diffuse radiation might originate from intergalactic stars. If that is the case, they might collectively comprise as much mass as that found in the galaxies. A population of such magnitude was at one point thought to explain the photon underproduction crisis , and may explain a significant part of the dark matter problem. The first intergalactic stars were discovered in

#689310