Starship Asterisk*

Tom Ferry wrote:ah oupseedoo ...Centauri ...Centaurus..go figure ! =)

and I think that the nomiker "Proxima" would indicate that Proxima Cen would actually be the one that orbits closest to us?

Alpha and Beta Centauri, and Prxoima at the arrow.
Photo: ESO.

Tom Ferry wrote:and I think that the nomiker "Proxima" would indicate that Proxima Cen would actually be the one that orbits closest to us?

Tom Ferry wrote:I wonder what its like there in that cluster? Our closest neighbor is the Alpha Centauri system and that is just a bright binary system in the Big Dipper. But there you have 1000 stars all within 25 light years of each other? and many of them are raging Blue Giants?
I imagine that would set new records in light polution

MarkBour wrote:And finally, suppose an instrument like the Kepler space telescope were pointed at this region. Would it be able to watch these stars for light variations, to hunt for planets, or is there just too much light coming from this area for it to work? I had heard that Kepler had been pointed at a relatively dark area, with fewer stars in view.

MarkBour wrote:Beautiful image. I liked starsurfer's characterization: "... glittering sapphires on the golden galactic beach".

As usual, here's a post full of questions ...

I assume the blue-ish stars are the cluster, and are at about 1000 light-years away, as the caption described. But around the core of the cluster, one sees other blue stars, smaller and spreading far and wide. Also, there are a few large yellow-hued stars in the image, and then again, some smaller, and it seems that for the yellows at least, the field of view holds a vast number of them.
Q1: Are the large yellow stars as close as the large blue stars?
Q2: Are the large yellow stars part of this cluster?
Q3: I'm assuming most of these small yellow dots are stars in the further part,
perhaps a spiral arm of the Milky Way, and I am guessing they are some
10-20 times as far away as the M7 cluster. Is that correct?
Q4: I wonder about them. As dense as they appear, are they actually separated on average by
greater distances than the stars in the M7 cluster?

And finally, suppose an instrument like the Kepler space telescope were pointed at this region. Would it be able to watch these stars for light variations, to hunt for planets, or is there just too much light coming from this area for it to work? I had heard that Kepler had been pointed at a relatively dark area, with fewer stars in view.

Chris Peterson wrote:I have no complaint with the wording of the caption. But neither have I any complaint with a mildly pedantic comment about that wording that serves to illustrate some important ideas.

Nitpicker wrote:I am still happy with " visible are literally millions of stars". I would also be content with the addition "many thousands of which are resolved".

Chris Peterson wrote:

Nitpicker wrote:None of the stars are resolved. Apart from the Sun, we never really sees stars, but unresolved point sources of light. Whilst it would always be technically more correct to say that "visible is the light from literally millions of stars", I think that it is fair enough plain English to say that "visible are literally millions of stars".

When referring to optical point sources (such as most stars), the term "resolution" refers to the ability to distinguish two or more close sources from each other, not to the ability to resolve them as extended objects. So it is proper and correct with an image like this to say that tens or hundreds of thousands of stars are resolved.

Nitpicker wrote:None of the stars are resolved. Apart from the Sun, we never really sees stars, but unresolved point sources of light. Whilst it would always be technically more correct to say that "visible is the light from literally millions of stars", I think that it is fair enough plain English to say that "visible are literally millions of stars".

Chris Peterson wrote:The full resolution image has about three million pixels. Given the FWHM of about 2.5 pixels, and the fact that most stars occupy five or more pixels, there are probably no more than a few hundred thousand individually resolved stars in the image. So the caption is technically incorrect, even though it's clearly true that there are millions of stars in this particular field of view, and the image itself shows the light of millions.

Ron-Astro Pharmacist wrote:Short-timers on the cosmic scale, it’s odd that they won’t be around for long either. Talk about fast and furious. Being from similar origins, the large number of open clusters must represent an interesting chapter in our galaxy’s history.

JohnD wrote:Here's a pleasant coincidence!

Stars in the Macrocosm and the Microcosm. See today's EPOD: http://epod.usra.edu/

John

BDanielMayfield wrote:

starsurfer wrote:

BDanielMayfield wrote:Right, the stars in open clusters will all eventually disperse, while globulars seldom lose members.

Actually old globular clusters lose many stars as they orbit around the galaxy until eventually they are completely absorbed into the galactic disc. Many old globular clusters are now known to possess tidal tails, which is the result of ejected stars being drwan out in a stream as the globular cluster moves forward.

I'm glad to have my understanding refined, so thanks starsurfer. But, with their orbital planes being often at large angles to the galactic disc's plane, wouldn't stars stripped from globulars mostly become members of the halo population instead of the disc?

Javi Del Rey wrote:Oh yeah, you just have to click on it for a higher resolution....then you'll find that there are literally millions of stars in the photo.

muehlner wrote:"Also visible are ... literally millions of stars." Literally? This is a popular claim for astronomy pictures but is rarely true. The full size photo obtained by clicking on today's APOD (very nice, as usual) is composed of three million pixels. For there to be even one million stars visible there could be no more than 3 pixels/star. Sorry to be so pedantic. But I do believe that there would be millions of stars visible with much higher resolution.

Boomer12k wrote:And just look at that "Wall of Stars"....

BDanielMayfield wrote:

starsurfer wrote:

BDanielMayfield wrote:Right, the stars in open clusters will all eventually disperse, while globulars seldom lose members.

Actually old globular clusters lose many stars as they orbit around the galaxy until eventually they are completely absorbed into the galactic disc. Many old globular clusters are now known to possess tidal tails, which is the result of ejected stars being drwan out in a stream as the globular cluster moves forward.

I'm glad to have my understanding refined, so thanks starsurfer. But, with their orbital planes being often at large angles to the galactic disc's plane, wouldn't stars stripped from globulars mostly become members of the halo population instead of the disc?