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Transcript
Tiffany Alago March 1, 2009 Prof. Layden ASTR 309 Introduction Throughout the night as the earth rotates our sky changes, and so does the sky where we stand. The information that continues is the results of a Messier marathon. How many Messier objects can you see in one night? The answer is you never know for sure. If you ask yourself that question everyday, you would most likely get a different answer each day. Purpose The purpose of this project is to give a brief description of Messier objects: What are they? What are some different types? To show what do some look like. What’s important or interesting about them? Goals Part of the work of this project was to take the best quality pictures possible. In order to achieve this goal one had to put in practice and improve the skills learned in class, which includes: Planning your night – what are you observing and when are you going to observe it? Checking and predicting the weather. Proper use of the CCD camera. Proper use of the 0.5m telescope. Messier Objects Charles Messier is the first astronomer to come up with a systematic catalogue of deep sky objects. In the Messier catalog there are currently 110 deep sky objects. Some of the types of deep sky objects include: Galaxies – spiral, irregular, elliptical Nebulae – planetary, diffuse Globular clusters Open clusters Messier Marathon M 35 Open cluster Right Ascension: 06h08.9m Declination: +24°20m Visual Brightness: 5.3 mag Apparent Dimension: 28.0 arc min Exposure time of image: 12 s M 35 This open cluster is located in Gemini. Includes several hundreds of stars. Last count was of 513 stars Discovered by Philippe Loys de Cheseaux. Was catagolized in 1745 or 1746. At a distance of 2,800 light years Of intermediate age. Includes some post-main sequence stars: with some red and orange giants of spectral type G to K M42 Star forming Nebulae Right Ascension: 05h35.4m Declination: -05°27m Visual Brightness: 4.0 mag Apparent Dimension: 85 x 60 arc min Exposure time of image: 12s M42 Is an emission and reflection nebula, with an open cluster in Orion. Also known as the Orion Nebula. Is one of the brightest starforming nebulae and one of the brightest diffusion nebulae in the sky It is a big object, considered to cover four times the area of the full moon. Located 1,600 light years away. Is a very turbulent cloud of gas and dust, hence it’s gaseous nature. M42 This nebula is said to be located in the sword of Orion. Under good night sky conditions it can be clearly visible to the naked eye. Is considered one of the brightest of all deep sky objects and is one of the most studied. M44 Open Cluster Right Ascension: 08h40.1m Declination: +19°59m Visual Brightness: 3.7 mag Apparent Dimension: 95.0 arc min Exposure time of image: 4s M44 Also known as Praesepe or the Beehive cluster. Includes about 200 stars. Is about 577 light years away. Has an estimated age of about 730 million years old. Contains some red giants, white dwarfs and one blue star. M44 Mythology behind M44 is that “Greeks and Romans saw this "nebula" as the manger (Greek: Phatne) associated with two asses who eat from it; Asellus Borealis, the Northern Ass and Asellus Australis, the Southern Ass. Erathosthenes reported that these were the asses on which the gods Dionysos and Silenus rode into the battle against the Titans. M44 The titans were frightened by the animals' braying so that the gods won. As a reward, the asses were put in sky together with Phatne.” (Frommert and Krongberg) M53 Globular Cluster Right Ascension: 13h12.9m Declination: +18°10m Visual Brightness: 7.3 mag Apparent Dimension: 13.0 arc min Exposure time of image: 20s M53 Discovered by John Elert Bode in 1775. Is a globular cluster (NGC 5024) in Coma Berenice. Is 60,000 light years away from the galactic center. Is below average of “metallicity” compared to other globular clusters. Has stars within the horizontal branch and some red giants. Contains 47 known RR Lyrae variable stars!!! M64 Spiral Galaxy Right Ascension: 12h56.7m Declination: +21°41m Visual Brightness: 8.5 mag Apparent Dimension: 9.3x54 arc min Exposure time of image: 45s M64 Also known as the Blackeye galaxy or the Sleeping Beauty Galaxy. Was discovered by Eward Pigott in 1779. A characteristic feature of this galaxy is the dark dust pattern that surrounds it. The distance of has not been very well determined. Includes cepheid variable stars!!! M65 Spiral Galaxy Right Ascension: 11h18.9m Declination: +13°05m Visual Brightness: 9.3 mag Apparent Dimension: 8x1.5 arc min Exposure time of image: 30s M65 Discovered in 1980 by Charles Messier. Also is NCG 3623 within Leo. Forms part of the Leo Triplett (M66 and NGC 3628). Has a luminous disk populated by old stars. Located 35 million light years away. M66 Spiral Galaxy Right Ascension: 11h20.2m Declination: +12°59m Visual Brightness: 8.9 mag Apparent Dimension: 8x2.5 arc min Exposure time of image: 20s M66 Discovered by Charles Messier in 1780. Is NGC 3627 in Leo and also forms part of the Leo Triplett. It’s spiral arms are deformed as result of encounters with other members of the Leo Triplett. Is 35 million light years away. M 67 Open Cluster Right Ascension: 08h50.4m Declination: +11°49m Visual Brightness: 6.1 mag Apparent Dimension: 30 arc min Exposure time of image: 20s M67 Discovered by Johann Has a red giant branch Gottfried Koehler approximately in 1779. The oldest of Messier’s open clusters. Close to 3.2 billion years old. Is NGC 2682 within Cancer. Expected death… in another 5 billion years!! and a main sequence that end in hot blue. Has counted till now 500 stars, 200 of them being white dwarfs! Is the perfect object to observe when studying sun-like type stars. M81 Spiral Galaxy Right Ascension: 09h55.6m Declination: +69°04m Visual Brightness: 6.9 mag Apparent Dimension: 21x10 arc min Exposure time of image: 65s M81 Also known as the Bode’s Galaxy. NGC 3031 in Ursa Major. Discovered by Johann Elert Bode in 1774. Has a distance of 11 million light years away. On March 28, 1993 a type II supernova occurred in M81, which was discovered by the Spanish amateur astronomer Francisco Garcia Diaz!!! Has a population of 210(+/- 30) globular clusters!! Is the cause for M82 initial deformation from an encounter millions of years ago. M82 Irregular Galaxy Right Ascension: 09h55.8m Declination: +69°41m Visual Brightness: 8.4 mag Apparent Dimension: 9x4 arc min Exposure time of image: 18s M82 As M81, it was also Only 12 million light years discovered by Johann Elert away. Bode in 1774. Has one true and one false NGC 3034 in Ursa Major. supernova reported: Famous for it’s heavy False: (1986D) - a starforming activity. slightly variable 2micrometer source had Prototype member of the fooled the discoverers. class of Star Bursting Galaxies!!! True: (2004am) – discovered at the Lick Observatory. M94 Spiral Galaxy Right Ascension: 12h50.9m Declination: +41°07m Visual Brightness: 8.2 mag Apparent Dimension: 7x3 arc min Exposure time of image: 40s M94 NGC 4736 in Canes Venatici. Discovered by Pierre Méchain in 1781. Has an extremely bright inner region surrounded by a ring of active starforming regions. The distance has yet to be fully determined. Relatively young/adult cluster. One of the relatively rare galaxies in which two “waves" of stellar formation can be observed. M95 Spiral Galaxy Right Ascension: 10h44.0m Declination: +11°42m Visual Brightness: 9.7 mag Apparent Dimension: 4.4x3.3 arc min Exposure time of image: 60s M95 Discovered by Pierre Méchain in 1781. Is 41 million light years away. Is NGC 3351 within Leo. Has cepheid variables!!! Is a barred spiral galaxy. Was one of the galaxies in One of the faintest Messier objects. the key project of the Hubble Space Telescope for the determination of the Hubble constant. M98 Spiral Galaxy Right Ascension: 12h13.8m Declination: +14°54m Visual Brightness: 10.1 mag Apparent Dimension: 9.5x3.2 arc min Exposure time of image: 25s Look close, zoom in… it’s there M98 Is NGC 4192 in Coma Berenices. Discovered by Pierre Méchain in 1781. It has been argued to be a Virgo Cluster member. “Shows a chaotic, diffuse disk, containing some blue regions of newly formed stars, and a huge quantity of occulting dust.” (Frommert and Kronberg) Also one of the faintest Messier objects. M105 Elliptical Galaxy Right Ascension: 10h47.8m Declination: +12°35m Visual Brightness: 9.3 mag Apparent Dimension: 2.0 arc min Exposure time of image: 75s M105 Discovered by Pierre Méchain in 1781. Is NGC 3379 in Leo. Only 38 million light years away. Contains a massive central object of about 50 million solar masses. M106 Spiral Galaxy Right Ascension: 12h19.0m Declination: +47°18m Visual Brightness: 8.4 mag Apparent Dimension: 19x8 arc min Exposure time of image: 25s M106 NGC 4258 in Canes Venatici. Discovered by Pierre The arms have bright blue star clusters that must have been recently formed. Méchain in 1781. The active center also Has a distance of 21 to 25 emits jets!!! million light years. A supernova, 1981K, It resembles somewhat the Andromeda galaxy M31. occurred in M106 in August 1981. M108 Spiral Galaxy Right Ascension: 11h11.5m Declination: +55°40m Visual Brightness: 10.0 mag Apparent Dimension: 8 x 1 arc min Exposure time of image: 90s M108 NGC 3556 within Ursa Major. Discovered by Pierre Méchain in 1781. Appears to have no bulge and no pronounced core at all. Approximately 45 million light years away. Has a a detail-rich mottled disk with heavy obscuration along the major axis. A type II supernova 1969B occurred in M108 on Jan 23, 1969. Sky conditions the night of the Messier Marathon. At 11pm sky was clear. Not very dark, some light pollution. The moon was in a smaller phase (meaning not full and not too bright). Around 3am we started getting some patches of clouds. At 4:10pm the sky was fully clouded and seemed less darker. Conclusion All of these images where taken at the Bowling Green State University Observatory with the 0.5 meter telescope. To get a quality image while taking pictures with a CCD camera a lot of things need to be considered: Visual magnitude of object Lof the object in the sky Exposure time Highest count possible with CCD camera Filters being used. The goal is to take the best picture possible when using the CCD camera and the factors mentioned before affect the focus and saturation of the image. It take practice, comfort and patience to achieve this goal. Works Cited Frommert, Hartmut, and Christine Kronberg. “The Messier Catalog.” The Munich Astro Archive. 30 Aug. 2007. SEDS. 28 Feb. 2009 < http://www.maa.clell.de> However I used a more specific link created from this website. One for each Messier object, which are the following: http://www.maa.clell.de/Messier/E/m035.html http://www.maa.clell.de/Messier/E/m042.html http://www.maa.clell.de/Messier/E/m044.html http://www.maa.clell.de/Messier/E/m053.html http://www.maa.clell.de/Messier/E/m064.html http://www.maa.clell.de/Messier/E/m065.html Works Cited http://www.maa.clell.de/Messier/E/m066.html http://www.maa.clell.de/Messier/E/m067.html http://www.maa.clell.de/Messier/E/m081.html http://www.maa.clell.de/Messier/E/m082.html http://www.maa.clell.de/Messier/E/m094.html http://www.maa.clell.de/Messier/E/m095.html http://www.maa.clell.de/Messier/E/m098.html http://www.maa.clell.de/Messier/E/m105.html http://www.maa.clell.de/Messier/E/m106.html http://www.maa.clell.de/Messier/E/m108.html