NGC 3312 explained

NGC 3312 is a large and highly inclined spiral galaxy^[3] located about 194 million light-years away^[4] in the constellation Hydra.^[5] The galaxy was discovered by astronomer John Herschel on March 26, 1835. It was later rediscovered by astronomer Guillaume Bigourdan on February 26, 1887. NGC 3312 was later listed and equated with IC 629 because the two objects share essentially the same celestial coordinates.^{[6] [7]} NGC 3312 is the largest spiral galaxy^[8] in the Hydra Cluster^[9] and is also classified as a LINER galaxy.^{[10] [11]}

Physical characteristics

NGC 3312 appears to be highly distorted with sharp dust lanes. There are sharp filamentary extensions to the north and an internal ringlike structure in the galaxy. The interstellar matter in the galaxy also appears highly disturbed. These features caused astronomer De Vaucouleurs to suggest that NGC 3312 was distorted by the giant elliptical galaxies NGC 3309 and NGC 3311 which are the dominant ellipticals in the Hydra Cluster. However, NGC 3309 and NGC 3311 are too distant and their relative velocity differences too large for either elliptical to cause the filamentary extensions observed in NGC 3312. It is more likely that NGC 3312 is interacting with the intracluster medium causing ram-pressure stripping which is stripping the interstellar medium of the galaxy. This may have caused the filamentary extensions observed in NGC 3312 as evidenced by the location of the galaxy near the cluster core.^[12] As a result, this galaxy can be considered part of a rare class of galaxies, known as jellyfish galaxies.

Star formation

Although NGC 3312's morphological structure resembles that of anemic galaxies, its mean surface-brightness profile hints that star formation may be quite active. The northwest filamentary extension from NGC 3312 has high surface brightness and has the knotted texture characteristic of active star-forming regions in spiral arms. Also, the internal dust lane of NGC 3312 is ringed with bright condensations.

Radio source

NGC 3312 contains an unresolved strong radio source in its core with a strength of 27 mJy and radio emission in the disk with a strength of 24 mJy mostly being confined to the spiral arms of the galaxy or regions of star formation.^[13]

See also

• List of NGC objects (3001–4000)
• Messier 90
• NGC 4921

Notes and References

1. Web site: NASA/IPAC Extragalactic Database . Results for NGC 3312 . 2018-05-29.
2. Book: The Cambridge Photographic Atlas of Galaxies. König. Michael. Binnewies. Stefan. 2017-09-07. Cambridge University Press. 978-1-107-18948-5. en.
3. Web site: Your NED Search Results. ned.ipac.caltech.edu. 2018-05-31.
4. Web site: NED Query Results for NGC 3312. ned.ipac.caltech.edu. en-US. 2018-05-31.
5. Web site: Revised NGC Data for NGC 3312. spider.seds.org. 2018-05-31.
6. Web site: Astronomy-Mall: Adventures In Deep Space NGC objects 3001–3999. Gottlieb. Steve. Astronomy-Mall. 2018-04-27.
7. Web site: New General Catalog Objects: NGC 3300 – 3349. cseligman.com. en-US. 2018-05-04.
8. Huchtmeier. W. K.. July 1990. Detection of CO emission in Hydra 1 cluster galaxies. NASA Conference Publication. 3084. 386–388. 1990NASCP3084..386H.
9. Richter. O.-G.. February 1989. The Hydra I cluster of galaxies. V – A catalogue of galaxies in the cluster area. Astronomy and Astrophysics Supplement Series. 77. 237–256. 1989A&AS...77..237R.
10. News: NGC 3312. 2018-05-31.
11. Web site: Sasmirala object pages. dc.zah.uni-heidelberg.de. 2018-05-31.
12. Gallagher. J. S.. July 15, 1978. Possible optical evidence for ram-pressure-sweeping in the Hydra I cluster of galaxies. The Astrophysical Journal. en. 223. 386–390. 10.1086/156273. 0004-637X. 1978ApJ...223..386G.
13. McMahon. P. M.. van Gorkom. J. H.. Richter. O.-G.. Ferguson. H. C.. February 1992. H I imaging of NGC 3312 and NGC 3314a – A foreground group to the Hydra cluster?. The Astronomical Journal. en. 103. 399. 10.1086/116068. 0004-6256. 1992AJ....103..399M.