Starship Asterisk*

Ann wrote:Is anything more known about whether there is a cluster of massive unborn stars hidden behind the visible optical cluster? Or are the X-ray sources proof enough? We found a cluster of X-rays, ergo, there are massive unborn stars here that we can't see?

astrofs wrote:
All our information comes from Electromagnetic Waves, just different wavelength/frequencies - but they all travel at the same speed.
But a supernova sends out "information" in two ways: in Electromagnetic Waves (EW), and Physical material. The physical material travels at a much slower speed that the EW, and so we can detect the EW long before the effects that the physical material causes.

A good example of this is SN1972 in Large Magellanic Cloud. It was detected by it's EW in 1972, but over the years we have recorded the different events that have been caused by the physical material passing, at a much lower speed, through its "local" region.

Hope this clears up some confusion.

Chris Peterson wrote:

Ann wrote:Well, you are missing that the cluster in the Eagle Nebula, NGC 6611, is admittedly a bit reddened, but it is very far from hidden from Hubble's sharp-eyed view.

Well, if you are correct in your interpretation, I wouldn't say there was anything sloppy about the language used, but that the statement is simply incorrect.

I interpret the caption differently. First of all, NGC 6611 is the Eagle Nebula, not some internal cluster. That is, it is the entire object, which consists of an open cluster surrounded by gas and dust. So my reading of the caption is that within the dust, a small cluster of young, hot stars has been identified in x-ray images that cannot be seen in visible light. I don't know if that interpretation is correct, but I think it would be unusual to find any dusty nebulas that don't contain hot stars which can't be seen in visible light.

Sam wrote:Thanks, Chris. Is there any observation record of this supernova 100 or so years ago?

Chris Peterson wrote: It probably didn't hide the supernova. What's hiding is a supernova remnant, or a bubble of shocked gas and dust produced by an earlier supernova. That is many, many orders of magnitude dimmer than the supernova itself was during its brief flare.

Chris Peterson wrote:Or consider our atmosphere. When you look straight up at the stars, you are only looking through a few kilometers of dense air, and it hardly attentuates those stars at all (stars from the ground don't look much dimmer than they would from space). But when you look towards the horizon, you are looking through hundreds of kilometers of air- enough that even the Sun is attenuated enough to be viewed directly. Same atmosphere, more of it.

Sam wrote:This discussion has raised a question in my mind: just how dusty is this nebula? If it can hide a supernova :shock:
it must be pretty dusty!

In general, how much dust is needed to completely block that much visible light?

Peeratz wrote:Dont all readings (Xray, IR, etc) have the same look-back time as visual time (lightspeed)? It sounds like they are trying to say this supernova explosion is 6,000 years old, 500 years less than the current look-back time that we see M16.

Ann wrote:Well, you are missing that the cluster in the Eagle Nebula, NGC 6611, is admittedly a bit reddened, but it is very far from hidden from Hubble's sharp-eyed view.

Peeratz wrote:
Dont all readings (Xray, IR, etc) have the same look-back time as visual time (lightspeed)?

Peeratz wrote:
It sounds like they are trying to say this supernova explosion is 6,000 years old, 500 years less than the current look-back time that we see M16.

Chris Peterson wrote:

Ann wrote:Isn't it sloppy language to claim that there is an embedded star cluster of massive hot stars in the Eagle Nebula that is hidden from Hubble's view at optical wavelengths?

Why? Am I missing something here? That seems like a perfectly reasonable assertion.

saturn2 wrote:Distance from Earth to Eagle Nebula 12,500 light-years.
Distance from Earth to Supernova 6,000 light-years.
The explosion of Supernova will can to destroy structures of Eagle Nebula in 500 years or more.
The energy has that to travel many years for to arrive Eagle Nebula.

Ann wrote:Isn't it sloppy language to claim that there is an embedded star cluster of massive hot stars in the Eagle Nebula that is hidden from Hubble's view at optical wavelengths?

bystander wrote:

orin stepanek wrote:In the blue hollow it looks like a person praying!

That's the Pillars of Creation. See here.

orin stepanek wrote:In the blue hollow it looks like a person praying!

Chris Peterson wrote:
sloppy language

APOD Robot wrote:
the massive, hot stars of the nebula's embedded star cluster. Hidden from Hubble's view at optical wavelengths

orin stepanek wrote:In the blue hollow it looks like a person praying!

Deus_Ex_Mamiya wrote:But when the article says "because the Eagle Nebula is some 6,500 light-years distant, their destruction won't be witnessed for hundreds of years", it now seems to be saying that the supernova occured 6,000 years ago is cosmic time, and it's light (as well as the light from the shock wave destruction of the pillars etc.) won't get to us for another 500 years. I think everyone can see the problem with that assertion! It's impossible to know about an event whose light signal is still en route to us. How could there be "evidence in the image data" for a supernova, whose light sphere won't even reach us for another 500 years?!!

pgwhite wrote:
I think the last two sentences of today's explanation require something further. If there is evidence today that a supernova explosion occurred 6000 years ago, we would have witnessed that explosion and its effects 6000 years ago (had we been alive), not in 500 years. We're not going to see it twice.

http://scienceblogs.com/startswithabang/2012/01/learning_all_about_the_eagle_a.php wrote:
<<Could there have been a recent supernova at the center? To be honest, they don't know, yet! What you'd look for is faint and diffuse X-ray emission, and you'd see how far it extends around the interior regions of the nebula. If XMM-Newton sees too much of it, it would invalidate this theory, but a small (but non-zero) amount would support it. The work is still being done, but this is the current working theory, and it's consistent with what Chandra (X-ray) and Spitzer (infrared) have seen in their previous observations.>>

Beyond wrote:

Chris Peterson wrote:They aren't really false. Mapped would be a better term, especially in the case where some of the data isn't even in the visible spectrum at all.

I suppose then, that someone should change the 3-rd word of the second sentence. :yes: :mrgreen: