NGC 4490
| Galaxie NGC 4490 | |
|---|---|
 | |
| NGC 4490 (unten) und NGC 4485 (oben), aufgenommen mithilfe eines Spiegelteleskop mit 60 cm Apertur des Mount-Lemmon-Observatoriums | |
| AladinLite | |
| Sternbild | Jagdhunde |
| Position Äquinoktium: J2000.0, Epoche: J2000.0 | |
| Rektaszension | 12h 30m 36,239s [1] |
| Deklination | +41° 38′ 38,03″ [1] |
| Erscheinungsbild | |
| Morphologischer Typ | SB(s)d / pec / HII[1] |
| Helligkeit (visuell) | 9,5 mag[2] |
| Helligkeit (B-Band) | 10,2 mag[2] |
| Winkelausdehnung | 6,4′ × 3,2′[2] |
| Positionswinkel | 125°[2] |
| Flächenhelligkeit | 12,6 mag/arcmin²[2] |
| Physikalische Daten | |
| Zugehörigkeit | Messier 106-Gruppe NGC 4258-Gruppe LGG 290[1][3] |
| Rotverschiebung | 0,001885 ± 0,000010[1] |
| Radialgeschwindigkeit | (565 ± 3) km/s[1] |
| Hubbledistanz H0 = 73 km/(s • Mpc) | (27 ± 2) · 106 Lj (8,36 ± 0,59) Mpc [1] |
| Durchmesser | 50.000 Lj |
| Geschichte | |
| Entdeckung | Wilhelm Herschel |
| Entdeckungsdatum | 14. Januar 1788 |
| Katalogbezeichnungen | |
| NGC 4490 • UGC 7651 • PGC 41333 • CGCG 216-008 • MCG +07-26-14 • IRAS 12281+4155 • KUG 1228+419 • 2MASX J12303636+4138370 • Arp 269 • VV 30a • GC 3042 • H I 198 • h 1308 • NSA 141527 • KPG 341B • Holm 414A,• LDCE 867 NED117 | |
NGC 4490 ist eine Balken-Spiralgalaxie vom Hubble-Typ SBcd mit ausgedehnten Sternentstehungsgebieten im Sternbild Jagdhunde am Nordsternhimmel. Sie ist schätzungsweise 27 Millionen Lichtjahre von der Milchstraße entfernt und hat einen Durchmesser von etwa 50.000 Lichtjahren. Gemeinsam mit NGC 4485 bildet sie das wechselwirkendes Galaxienpaar Arp 269 oder Holm 414, das durch einen sogenannten Gezeitenarm, der rund 24.000 Lichtjahre ins All ragt, verbunden wird.[4] Weiterhin gilt sie als Mitglied der NGC 4258-Gruppe (LGG 290).
Halton Arp gliederte seinen Katalog ungewöhnlicher Galaxien nach rein morphologischen Kriterien in Gruppen. Dieses Galaxienpaar gehört zu der Klasse Doppelgalaxien mit verbundenen Armen.
Die Supernovae SN 1982F (Typ II-P) und SN 2008ax (Typ IIb) wurden hier beobachtet.[5]
Das Objekt wurde am 14. Januar 1788 von dem deutsch-britischen Astronomen Wilhelm Herschel entdeckt.[6]
(c) ESA/Hubble, CC BY 4.0Detaillierte Aufnahme des Zentralbereichs mithilfe des Hubble-Weltraumteleskops
(c) ESA/Webb, NASA & CSA, A. Adamo (Stockholm University), G. Bortolini, and the FEAST JWST team, CC BY 4.0Die Galaxien NGC 4490 (links) und NGC 4485 (rechts) aufgenommen mittels James Webb-Weltraumteleskop und Hubble-Weltraumteleskop
Literatur
- König, Michael & Binnewies, Stefan (2019): Bildatlas der Galaxien: Die Astrophysik hinter den Astrofotografien, Stuttgart: Kosmos, S. 250
- Jeff Kanipe und Dennis Webb: The Arp Atlas of Peculiar Galaxies – A Chronicle and Observer´s Guide, Richmond 2006, ISBN 978-0-943396-76-7
Weblinks
Commons: NGC 4490 – Sammlung von Bildern, Videos und Audiodateien
- SIMBAD Astronomical Database
- Wechselwirkende Galaxien NGC4485/90
- Chandra
- Arp Atlas of Peculiar Galaxies
- Seligman Arp
- Fotos von Galaxien Stargazer-Observatory, siehe Abschnitt zu NGC 4490 + NGC 4485 (hochaufgelöste Aufnahme aus einer Amateur-Sternwarte mit semiprofessioneller Optik)
- Spektrum.de: Amateuraufnahmen [1][2][3]
- Aladin Lite
Einzelnachweise
Auf dieser Seite verwendete Medien
Result of a galactic crash.jpg
(c) ESA/Hubble, CC BY 4.0
This image, taken with the NASA/ESA Hubble Space Telescope, shows the galaxy NGC 4490. The scattered and warped appearance of the galaxy are the result of a past cosmic collision with another galaxy, NGC 4485 (not visible in this image).
(c) ESA/Hubble, CC BY 4.0
This image, taken with the NASA/ESA Hubble Space Telescope, shows the galaxy NGC 4490. The scattered and warped appearance of the galaxy are the result of a past cosmic collision with another galaxy, NGC 4485 (not visible in this image).
The extreme tidal forces of the interaction between the two galaxies have carved out the shapes and properties of NGC 4490. Once a barred spiral galaxy, the outlying regions of NGC 4490 have been stretched out, resulting in its nickname of the Cocoon Galaxy.
Coordinates Position (RA): 12 30 35.94 Position (Dec): 41° 38' 29.08" Field of view: 2.73 x 2.62 arcminutes Orientation: North is 195.0° right of vertical
Colours & filters Band Wavelength Telescope Ultraviolet UV 275 nm Hubble Space Telescope WFC3 Optical U 336 nm Hubble Space Telescope WFC3 Optical B 438 nm Hubble Space Telescope WFC3 Optical y 475 nm Hubble Space Telescope WFC3 Optical V 555 nm Hubble Space Telescope WFC3 Optical I 814 nm Hubble Space Telescope WFC3 Optical H-alpha + NIII 657 nm Hubble Space Telescope WFC3.
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A dance of dwarf galaxies (potm2511a).jpg
(c) ESA/Webb, NASA & CSA, A. Adamo (Stockholm University), G. Bortolini, and the FEAST JWST team, CC BY 4.0
For this new ESA/Webb Picture of the Month, the NASA/ESA/CSA James Webb Space Telescope has spied a pair of dwarf galaxies engaged in a gravitational dance. These two galaxies are named NGC 4490 and NGC 4485, and they’re located about 24 million light-years away in the constellation Canes Venatici (The Hunting Dogs). Aside from the Milky Way’s own dwarf companions (the Large and Small Magellanic Clouds), this is the closest known interacting dwarf-dwarf system where astronomers have directly observed both a gas bridge and resolved stellar populations. Together NGC 4490 and NGC 4485 form the system Arp 269, which is featured in the Atlas of Peculiar Galaxies. At such a close distance (and with Webb’s impressive ability to peer through dusty cosmic clouds) these galaxies allow astronomers to witness up close the kinds of galaxy interactions that were common billions of years ago.Dwarf galaxies likely share many similarities with young galaxies in the early Universe: they are much less massive than galaxies like the Milky Way, they typically have small amounts of metals (what astronomers call elements heavier than helium), and they contain a lot of gas and relatively few stars. When nearby dwarf galaxies collide, merge, or steal gas from one another, it can tell us how galaxies billions of years ago might have grown and evolved. The nearby dwarf galaxies NGC 4490 and NGC 4485 form an intriguing pair. Nearly three decades ago, astronomers discovered a wispy bridge of gas connecting the two galaxies, showing that they have interacted in the past. Despite many studies with powerful telescopes like the NASA/ESA Hubble Space Telescope, the history between NGC4490 and NGC 4485 has remained mysterious.Recently, Webb observed this curious galactic pair as part of the Feedback in Emerging extrAgalactic Star clusTers (FEAST) programme (#1783; PI: A. Adamo). The FEAST programme used Webb’s sensitive infrared eyes to reveal the formation of new stars in different types of nearby galaxies.This image was developed using data from Webb’s Near-InfraRed Camera (NIRCam) and Mid-InfraRed Instrument (MIRI), as well as a single narrow-band filter from Hubble (657N). It reveals NGC 4490 and NGC 4485 in never-before-seen detail and illuminates the bridge of gas and stars that connects them. NGC 4490 dominates the image as the larger object occupying the left side of the image, while NGC 4485 is the smaller galaxy that hosts the top-right portion of the image. By dissecting these galaxies star by star, researchers were able to map out where young, middle-aged, and old stars reside, and trace the timeline of the galaxies’ interaction.Roughly 200 million years ago, these galaxies whirled close to one another before waltzing away. The larger galaxy, NGC 4490, ensnared a stream of gas from its companion, and this gas now trails between the galaxies like dancers connected by outstretched arms. Along the newly formed bridge of gas and within the two galaxies, this interaction spurred a burst of new stars. The concentrated areas of bright blue that appear throughout the field indicate highly ionised regions of gas by the recently formed star clusters. Just 30 million years ago, these galaxies burst alight with stars once more, with new clusters coalescing where the gas of the two galaxies mixed together.By capturing the history of the galactic dancers NGC 4490 and NGC 4485, Webb has revealed new details in how dwarf galaxies interact, giving us a glimpse of how small galaxies near and far grow and evolve.[Image Description: This Webb image shows two interacting galaxies. NGC 4490 occupies the left side of the image, while NGC 4485 appears as a white glowing hue in the top right of the field. Both galaxies are connected by a bright stream of red stretching from the top left of the image, through the bottom centre, and ending at the right under galaxy NGC 4485. There are regions of bright blue ionised gas visible in concentrated areas of the red stream. The background is black with multiple galaxies in various shapes throughout.]
(c) ESA/Webb, NASA & CSA, A. Adamo (Stockholm University), G. Bortolini, and the FEAST JWST team, CC BY 4.0
For this new ESA/Webb Picture of the Month, the NASA/ESA/CSA James Webb Space Telescope has spied a pair of dwarf galaxies engaged in a gravitational dance. These two galaxies are named NGC 4490 and NGC 4485, and they’re located about 24 million light-years away in the constellation Canes Venatici (The Hunting Dogs). Aside from the Milky Way’s own dwarf companions (the Large and Small Magellanic Clouds), this is the closest known interacting dwarf-dwarf system where astronomers have directly observed both a gas bridge and resolved stellar populations. Together NGC 4490 and NGC 4485 form the system Arp 269, which is featured in the Atlas of Peculiar Galaxies. At such a close distance (and with Webb’s impressive ability to peer through dusty cosmic clouds) these galaxies allow astronomers to witness up close the kinds of galaxy interactions that were common billions of years ago.Dwarf galaxies likely share many similarities with young galaxies in the early Universe: they are much less massive than galaxies like the Milky Way, they typically have small amounts of metals (what astronomers call elements heavier than helium), and they contain a lot of gas and relatively few stars. When nearby dwarf galaxies collide, merge, or steal gas from one another, it can tell us how galaxies billions of years ago might have grown and evolved. The nearby dwarf galaxies NGC 4490 and NGC 4485 form an intriguing pair. Nearly three decades ago, astronomers discovered a wispy bridge of gas connecting the two galaxies, showing that they have interacted in the past. Despite many studies with powerful telescopes like the NASA/ESA Hubble Space Telescope, the history between NGC4490 and NGC 4485 has remained mysterious.Recently, Webb observed this curious galactic pair as part of the Feedback in Emerging extrAgalactic Star clusTers (FEAST) programme (#1783; PI: A. Adamo). The FEAST programme used Webb’s sensitive infrared eyes to reveal the formation of new stars in different types of nearby galaxies.This image was developed using data from Webb’s Near-InfraRed Camera (NIRCam) and Mid-InfraRed Instrument (MIRI), as well as a single narrow-band filter from Hubble (657N). It reveals NGC 4490 and NGC 4485 in never-before-seen detail and illuminates the bridge of gas and stars that connects them. NGC 4490 dominates the image as the larger object occupying the left side of the image, while NGC 4485 is the smaller galaxy that hosts the top-right portion of the image. By dissecting these galaxies star by star, researchers were able to map out where young, middle-aged, and old stars reside, and trace the timeline of the galaxies’ interaction.Roughly 200 million years ago, these galaxies whirled close to one another before waltzing away. The larger galaxy, NGC 4490, ensnared a stream of gas from its companion, and this gas now trails between the galaxies like dancers connected by outstretched arms. Along the newly formed bridge of gas and within the two galaxies, this interaction spurred a burst of new stars. The concentrated areas of bright blue that appear throughout the field indicate highly ionised regions of gas by the recently formed star clusters. Just 30 million years ago, these galaxies burst alight with stars once more, with new clusters coalescing where the gas of the two galaxies mixed together.By capturing the history of the galactic dancers NGC 4490 and NGC 4485, Webb has revealed new details in how dwarf galaxies interact, giving us a glimpse of how small galaxies near and far grow and evolve.[Image Description: This Webb image shows two interacting galaxies. NGC 4490 occupies the left side of the image, while NGC 4485 appears as a white glowing hue in the top right of the field. Both galaxies are connected by a bright stream of red stretching from the top left of the image, through the bottom centre, and ending at the right under galaxy NGC 4485. There are regions of bright blue ionised gas visible in concentrated areas of the red stream. The background is black with multiple galaxies in various shapes throughout.]
NGC4490.jpg
Autor/Urheber: Jschulman555, Lizenz: CC BY-SA 3.0
NGC4490 galaxy. 24 inch telescope on Mt. Lemmon, AZ.
Autor/Urheber: Jschulman555, Lizenz: CC BY-SA 3.0
NGC4490 galaxy. 24 inch telescope on Mt. Lemmon, AZ.