A Pequena Nuvem de Magalhães


Meu Projeto

Os desenhos formados pelas estrelas - AS CONSTELAÇÕES - são como janelas que se abrem para a infinitude do universo
e que possibilitam nossa mente a ir percebendo que existe mais, bem mais, entre o céu e a terra...;
bem como percebendo que o caos, vagarosamente, vai se tornando Cosmos e este por nossa mente sendo conscientizado.

Quer dizer, nossa mente é tão infinita quanto infinito é o Cosmos.

Com um abraço estrelado,
Janine Milward



http://en.wikipedia.org/wiki/Large_Magellanic_Cloud#mediaviewer/File:Large_and_small_magellanic_cloud_from_new_zealand.jpg
Large and small magellanic cloud from new zealand
Markrosenrosen - Own work





A Pequena Nuvem de Magalhães




http://en.wikipedia.org/wiki/Magellanic_Clouds#mediaviewer/File:Magellanic_Clouds_%E2%80%95_Irregular_Dwarf_Galaxies.jpg
Magellanic Clouds ― Irregular Dwarf Galaxies
ESO/S. Brunier - ESO





http://www.spacetelescope.org/images/heic0603d/
The two-colour image shows an overview of the full Small Magellanic Cloud (SMC) and was composed from two images from the Digitized Sky Survey 2. The field of view is slightly larger than 3.5›.
Credit:
ESA/Hubble and Digitized Sky Survey 2. Acknowledgements: Davide De Martin



Galáxia Tucano - Pequena Nuvem de Magalhães
Ascensão Reta 00h52m          Declinação -72o.56
         Magnitude fotográfica aparente  2,86
Dimensões Angulares  216 X 216       Distância (milhões de anos-luz) 0,2

A Pequena Nuvem de Magalhães

Esta é uma galáxia irregular e próxima e que, juntamente com a Grande Nuvem de Magalhães, órbita nossa Galáxia como se ambas fossem nossos satélites. 

A maior parte da massa da Pequena Nuvem de Magalhães consiste  de nuvens interestelares de hidrogênio, o material básico de formação das estrelas - que nesta galáxia acontecem em larga escala.  Prova disso é o grande numero de estrelas jovens e quentes - gigantes azuis - que trazem à Nuvem esta sua coloração azulada.

Em 1984, radio-astronomos australianos descobriram que a Pequena Nuvem de Magalhães consiste, na verdade, de duas  galáxias separadas, uma atrás da outra, uma sendo ocultada de forma que vemos apenas um único objeto no céu. Estas duas galáxias estão se separando uma da outra e foi exatamente a diferença de velocidade entre ambas que revelou o fato de a Pequena Nuvem ser, na verdade, duas galáxias separadas.

- 6a. Edição do Atlas Celeste
de autoria de Ronaldo Rogério de Freitas Mourão,
Editora Vozes, Petrópolis, ano de 1986


Localizada ao sul de Tucana, a Pequena Nuvem de Magalhães é uma galáxia anã que é uma das vizinhas mais próximas da Via Láctea a uma distância de 210 mil anos-luz. Embora provavelmente tenha tido o formato de disco, as forças de maré da Via Láctea a distorceram. Juntamente com a Grande Nuvem de Magalhães, ela está na corrente de Magalhães, uma nuvem de gás que conecta as duas galáxias8 . NGC 346 é uma região de formação de estrelas na Pequena Nuvem de Magalhães. Ela tem magnitude aparente de 10,311 . Dentro dela está o sistema estelar triplo HD 5980, sendo cada um de seus membros as estrelas mais luminosas conhecidas12 .


Hubble finds source of Magellanic Stream

Astronomers explore origin of gas ribbon wrapped around our galaxy

Image credit: David L. Nidever, et al., NRAO/AUI/NSF and Mellinger, LAB Survey, Parkes Observatory, Westerbork Observatory, and Arecibo Observatory.


Astronomers using the NASA/ESA Hubble Space Telescope have solved the 40-year-old mystery of the origin of the Magellanic Stream, a long ribbon of gas stretching nearly halfway around the Milky Way. New Hubble observations reveal that most of this stream was stripped from the Small Magellanic Cloud some two billion years ago, with a smaller portion originating more recently from its larger neighbour.
The Magellanic Clouds, two dwarf galaxies orbiting our galaxy, are at the head of a huge gaseous filament known as the Magellanic Stream. Since the Stream's discovery in the early 1970s, astronomers have wondered whether this gas comes from one or both of the satellite galaxies. Now, new Hubble observations show that most of the gas was stripped from the Small Magellanic Cloud about two billion years ago — but surprisingly, a second region of the stream was formed more recently from the Large Magellanic Cloud.
LEIA MAIS EM
http://www.spacetelescope.org/news/heic1314/




AGLOMERADOS LOCALIZADOS
NA PEQUENA NUVEM DE MAGALHÃES


NGC 121 é um aglomerado globular na direção da constelação de Tucana. O objeto foi descoberto pelo astrônomo John Herschel em 1835, usando um telescópio refletor com abertura de 18,6 polegadas.


http://pt.wikipedia.org/wiki/NGC_121#mediaviewer/Ficheiro:NGC_121_Hubble_WikiSky.jpg
NGC 121 Hubble WikiSkyDomínio público
en:NASAen:STScIen:WikiSky - en:WikiSky's snapshot tool - [1]
Credit:
ESA/Hubble & NASA
Acknowlegement: Stefano Campani
This image shows NGC 121, a globular cluster in the constellation of Tucana (The Toucan). Globular clusters are big balls of old stars that orbit the centres of their galaxies like satellites — the Milky Way, for example, has around 150.
NGC 121 belongs to one of our neighbouring galaxies, the Small Magellanic Cloud (SMC). It was discovered in 1835 by English astronomer John Herschel, and in recent years it has been studied in detail by astronomers wishing to learn more about how stars form and evolve.
Stars do not live forever — they develop differently depending on their original mass. In many clusters, all the stars seem to have formed at the same time, although in others we see distinct populations of stars that are different ages. By studying old stellar populations in globular clusters, astronomers can effectively use them as tracers for the stellar population of their host galaxies. With an object like NGC 121, which lies close to the Milky Way, Hubble is able to resolve individual stars and get a very detailed insight.
LEIA MAIS EM



NGC 602 is a young, bright open cluster of stars located in the Small Magellanic Cloud (SMC), a satellite galaxy to the Milky WayRadiation and shock waves from the stars have pushed away much of the lighter surrounding gas and dust that compose the nebula known as N90, and this in turn has triggered new star formationin the ridges (or "elephant trunks") of the nebula. These even younger, pre-main sequence stars are still enshrouded in dust but are visible to the Spitzer Space Telescope at infrared wavelengths.[5] The cluster is of particular interest because it is located in the wing of the SMC leading to the Magellanic Bridge. Hence, while its chemical properties should be similar to those of the rest of the galaxy, it is relatively isolated and so easier to study.[6]
A number of other, more distant galaxies also appear in the background of the Hubble images of NGC 602, making for a "tantalizing"[4] and "grand"[7] view


Image: Hubble Observes Infant Stars in Nearby Galaxy





Zooming on NGC 602


Credit:
Akira Fujii, Digitized Sky Survey 2 and ESA/Hubble


NGC 602: Ongoing Star Formation in a Young SMC Cluster

Lynn Redding Carlson (JHU), Antonella Nota (STScI/ESA), Elena Sabbi (STScI), Marco Sirianni (STScI/ESA), Joseph L. Hora (Harvard/CfA), Margaret Meixner (STScI), M. Clampin (NASA/Goddard), J. Gallagher (U. Wisconsin), M. S. Oey (U. Michigan), A. Pasquali (Inst. Of Astron., ETH), L. J. Smith (UCL), M. Tosi (Bologna Obs.), R. Walterbos (U. New Mexico)

(The following is a poster presentation made at the American
Astronomical Society conference in January 2007 in Seattle, Washington.)

The young stellar cluster NGC 602 is located in the wing of the SMC, Z~0.004, a low density region far from the main body of the galaxy with low gas and stellar content. From deep optical imaging with the Advanced Camera for Surveys (ACS) aboard the Hubble Space Telescope (HST), we have discovered the existence of an extensive pre-Main Sequence (PMS) population, with stellar masses in the range 0.6–3 Mo. This pre-Main Sequence population formed coevally with the central cluster about 5 Myr ago. Spitzer Space Telescope (SST) images of the region in all four Infrared Array Camera (IRAC) bands reveal a second population of Young Stellar Objects (YSOs), which formed after the stars seen with HST/ACS imaging. Some of these very young objects are still embedded in nebular material. We infer that star formation started in this region ~5 Myr ago with the formation of the central cluster and gradually propagated towards the outskirts where we find evidence of on going star formation (~1 Myr).






NGC 265 is an open cluster in the Small Magellanic Cloud,[3] which is located in the constellation Tucana.


NGC 290 is an open cluster. It lies some 200,000 light years away in the Small Magellanic Cloud,[2] which is located in the constellation Tucana. It spans 65 light years across.[3]




Hubble has captured the most detailed images to date of the open star clusters NGC 265 and NGC 290 in the Small Magellanic Cloud - two sparkling sets of gemstones in the southern sky.
Two new composite images taken with the Advanced Camera for Surveys onboard the NASA/ESA Hubble Space Telescope show a myriad of stars in crystal clear detail. The brilliant open star clusters, NGC 265 and NGC 290, are located about 200,000 light-years away and are roughly 65 light-years across.
Credit:
European Space Agency & NASA
Acknowledgements:
Davide De Martin (ESA/Hubble) and Edward W. Olszewski (University of Arizona, USA)



NGC 346 is an open cluster with associated nebula located in the Small Magellanic Cloud that appears in the constellation Tucana. It contains HD 5980, the brightest star in the SMC.
http://en.wikipedia.org/wiki/NGC_346
NASA, ESA and A. Nota (ESA/STScI, STScI/AURA) - http://www.spacetelescope.org/images/html/heic0514a.html (direct link)

http://apod.nasa.gov/apod/ap110509.html
Wonder and Mystery above the Very Large Telescopes
Credit: Yuri Beletsky (ESO)
Explanation: What's that bright orange dot above the large telescope on the right? Even seasoned sky enthusiasts might ponder the origin of the orange orb seen by scrolling across this panoramic image, taken last December. Perhaps identifying known objects will help. To start, on the far left is a diagonal band of light known as zodiacal light, sunlight reflected off of dust orbiting in the inner Solar System. The bright white spot on the left, just above the horizon, is Venus, which also glows by reflected sunlight. Rising diagonally from the ground to the right of Venus is the band of our Milky Way Galaxy. In the image, the band, which usually stretches dramatically overhead, appears to arch above the elevated Chilean landscape. Under the Milky Way arch, toward the left, lie both the Largeand Small Magellanic Cloud galaxies, while toward the right lies the constellation of Orion surrounded by the red ring of Barnard's Loop. On the ground, each of the four Very Large Telescopes is busy keeping an eye on the distant universe. The orange spot -- it's the Moon. The image was taken during a total lunar eclipse when the normally bright full moon turned into a faint orb tinted orange by the intervening Earth's atmosphere. 






http://www.raremaps.com/gallery/enlarge/33613


http://www.raremaps.com/gallery/detail/33613/Celestial_Map_of_the_Southern_Hemisphere/Pardies.html
Title: [Celestial Map of the Southern Hemisphere]  Map Maker: Ignace Gaston Pardies



Os desenhos formados pelas estrelas – As Constelações - são como janelas que se abrem para a infinitude do universo e que possibilitam nossa mente a ir percebendo que existe mais, bem mais, entre o céu e a terra bem como percebendo que o caos, vagarosamente, vai se tornando Cosmos e sendo por nossa mente conscientizado.  Quer dizer, nossa mente é tão infinita quanto infinito é o Cosmos.

COM UM ABRAÇO ESTRELADO,
Janine Milward