APOD: The Tidal Tail of NGC 3628 (2007 Jul 27)
APOD: The Tidal Tail of NGC 3628 (2007 Jul 27)
http://apod.nasa.gov/apod/ap070727.html
regarding the The Tidal Tail of NGC 3628 of July 27: who was the galaxy that stretched the tail out? Is it out of the view of this image, or due to a no longer obvious motion of one of the other 2 [m65 m66] galaxies in the triplet?
regarding the The Tidal Tail of NGC 3628 of July 27: who was the galaxy that stretched the tail out? Is it out of the view of this image, or due to a no longer obvious motion of one of the other 2 [m65 m66] galaxies in the triplet?
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Hellop1gnone wrote:regarding the The Tidal Tail of NGC 3628 of July 27: who was the galaxy that stretched the tail out? Is it out of the view of this image, or due to a no longer obvious motion of one of the other 2 [m65 m66] galaxies in the triplet?
Maybe this link may help you find
http://burro.cwru.edu/JavaLab/GalCrashWeb/links.html
This image is great
http://astrosurf.com/antilhue/m65_m66.htm
http://antwrp.gsfc.nasa.gov/apod/ap060108.html
http://www.galaxyimages.com/NGC3628.html
http://www.journals.uchicago.edu/AJ/jou ... 37999GuestThis image of NGC 3628 is the result of 12 hours of exposure time to bring out the faint tidal tail. The tail is the result of interaction with two nearby galaxies, M65 and M66.
You can read more about this in this Astronomical Journal article.
Harry : Smile and live another day.
a black hole in the 7/27 image?
I think i found a black hole in the Astronomy picture of the day, its definitely something on the picture near a star, It may be a smudge in the glass of the telescope? or something, its in the upper right corner of the picture. the anamoly is in the corona of one of the stars in the lower left part of the corona of the star.
if you take the three star cluster and go left.. three large stars, the third large star looks to have a "smudge" in the lower part of the corona. You draw your own conclusions?
if you take the three star cluster and go left.. three large stars, the third large star looks to have a "smudge" in the lower part of the corona. You draw your own conclusions?
Gravitational lens in 2007-07-27 APOD?
http://antwrp.gsfc.nasa.gov/apod/ap070727.html
Okay, I know it's probably not a gravitational lens, but it does sort of look like one! If you draw a line along the plane of NGC 3628 heading towards the upper left of the picture, you'll quickly come to a bright, reddish foreground star. Straight down from that a short ways is another, somewhat dimmer foreground star with what looks like the image of a background galaxy 'wrapped' around its right side. Looks suspiciously lens-like.
I daresay it's probably just a chance alignment between a foreground star and a distorted background galaxy.
Okay, I know it's probably not a gravitational lens, but it does sort of look like one! If you draw a line along the plane of NGC 3628 heading towards the upper left of the picture, you'll quickly come to a bright, reddish foreground star. Straight down from that a short ways is another, somewhat dimmer foreground star with what looks like the image of a background galaxy 'wrapped' around its right side. Looks suspiciously lens-like.
I daresay it's probably just a chance alignment between a foreground star and a distorted background galaxy.
Don't just stand there, get that other dog!
Do you mean this on the right?
http://www.kfs.org/~oliver/blackspots.jpg
I marked the item on the left wondering if perhaps it was some foreground molecular cloud or something.
Remember jpeg is lossy - there are a lot of artefacts in the APOD picture as a result, and these both seem candidates.
http://www.kfs.org/~oliver/blackspots.jpg
I marked the item on the left wondering if perhaps it was some foreground molecular cloud or something.
Remember jpeg is lossy - there are a lot of artefacts in the APOD picture as a result, and these both seem candidates.
I doubt that is a black hole because what you called the corona of the star is just the overexposed image of the bright star spilling over to adjacent pixels. So the black hole couldn't be seen there. All stars except one (that I know of) can be seen only as points even through the largest telescopes. That one exception is Betelgeuse, the nearest red supergiant about 600 ly away.
http://apod.nasa.gov/apod/ap990605.html
I read somewhere that the only way to detect a stellar mass black hole is when one passes in front of a background star, causing the star to brighten due to gravitational lensing.
http://apod.nasa.gov/apod/ap990605.html
I read somewhere that the only way to detect a stellar mass black hole is when one passes in front of a background star, causing the star to brighten due to gravitational lensing.
Fight ignorance!
Re: Gravitational lens in 2007-07-27 APOD?
Why dont YOU draw it, and post it?Qev wrote:If you draw a line along the plane of NGC 3628 heading towards the upper left of the picture...
Re: Gravitational lens in 2007-07-27 APOD?
I believe this is what Qev was refering to, It is between the 09:00 & 10:00 positionsmakc wrote:Why dont YOU draw it, and post it?Qev wrote:If you draw a line along the plane of NGC 3628 heading towards the upper left of the picture...
Re: Gravitational lens in 2007-07-27 APOD?
I'm lazy?makc wrote:Why dont YOU draw it, and post it?Qev wrote:If you draw a line along the plane of NGC 3628 heading towards the upper left of the picture...
Don't just stand there, get that other dog!
If by transparent, you mean being able to see the background objects through it, the answer is no. It is called BLACK hole for a reason: all light that enters the black hole stays there. NONE will come out.zeilouz wrote:Black holes are transparent,arent they..?how can u detect them..?if there was a black hole..some of the pictures might be black due to the gravitational force that sucks all the matter around the black hole..
Hmmm..cant see it though..@@
You can detect a solitary black hole only when one passes in front of a bright background object, such as a star. If you get close to one (not too close or you will be sucked in!), you might see a bright ring around it due to lights from stars being bent by the strong gravitation force. You might also be able to detect it with an infra-red detector due to thermal radiation, called Hawking radiation, being emitted just outside the event horizon. However, that remains theoretical. Anyone, correct me if I am wrong!
Fight ignorance!
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I don't think there's any case of a black hole being seen as a silhouette. They are just too small, even if one did happen to pass right in front of a star (which itself is unlikely). Black holes are detected indirectly, by the radiation emitted by gas and dust falling into them. Such radiation can be very intense. In practice, all the black holes we know of are pretty bright objects. It doesn't matter that we can't see the very central part.starnut wrote: You can detect a solitary black hole only when one passes in front of a bright background object, such as a star.
Chris
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Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
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Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
A suspected isolated black hole was supposedly discovered a few years ago when some astronomers noticed a small star suddenly brightened and then dimmed. It wasn't a white dwarf going nova. I can't remember offhandedly where it was reported. Of course, this claim was questioned, but finding a black hole by noticing the brightening due to gravitational lensing is still one way to do it.Chris Peterson wrote: I don't think there's any case of a black hole being seen as a silhouette. They are just too small, even if one did happen to pass right in front of a star (which itself is unlikely). Black holes are detected indirectly, by the radiation emitted by gas and dust falling into them. Such radiation can be very intense. In practice, all the black holes we know of are pretty bright objects. It doesn't matter that we can't see the very central part.
As for gas and dust falling into the black hole, that happens only if the black hole is either a member of a close binary system, in which it is drawing matter off its companion star (usually a red giant), or a supermassive black hole at the center of a galaxy. I was talking about an isolated stellar mass black hole.
Fight ignorance!
oh and,
the reason I even thought it was something is if you view that one star, that black pixel stands out without even magnifying it. which was was made me notice it in the first place. and when you zoom in using the MS picture program, when you get to a certain depth it looks as if the "spec" is uniform in some fashion with a ring around it. But again I know a great deal about lossfull and loss less graphics that is why I wanted some more opinions... and again thanks very much for all the feedback, I feel edjumacated (smile)..
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Gravitational lensing could potentially be used to identify a black hole, but there's no strong evidence that we've ever seen one this way.starnut wrote:A suspected isolated black hole was supposedly discovered a few years ago when some astronomers noticed a small star suddenly brightened and then dimmed. It wasn't a white dwarf going nova. I can't remember offhandedly where it was reported. Of course, this claim was questioned, but finding a black hole by noticing the brightening due to gravitational lensing is still one way to do it.
Understood. My point was that every black hole we know of falls in this category. We only consistently see black holes that make their presence known by the radiation produced by infalling material.starnut wrote:As for gas and dust falling into the black hole, that happens only if the black hole is either a member of a close binary system, in which it is drawing matter off its companion star (usually a red giant), or a supermassive black hole at the center of a galaxy. I was talking about an isolated stellar mass black hole.
Chris
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Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com