Quizzes & Puzzles65 mins ago
Hubble Discovers Ancient Galaxy Far, Far Away
For anyone interested.
//"The discovery of GN-z11 shows us that our knowledge about the early Universe is still very restricted. Probably we are seeing the first generations of stars forming around black holes?"//
http:// news.sk y.com/s tory/16 53121/h ubble-d iscover s-ancie nt-gala xy-far- far-awa y
//"The discovery of GN-z11 shows us that our knowledge about the early Universe is still very restricted. Probably we are seeing the first generations of stars forming around black holes?"//
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No best answer has yet been selected by naomi24. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.It's not, strictly speaking, the furthest back in time that we've ever seen (at least, I don't think so -- my understanding was that the Cosmic Microwave Background radiation holds that record). That pedantic point aside, though, it's still a remarkable achievement and hopefully the next generation of observatories will continue to push back the limits of astronomy. I think seeing this galaxy is closer to discovering your first dinosaur fossil if all you'd previously seen of life on earth was sea life in the ancient Cambrian oceans -- ie no less impressive, arguably more so.
We have an odd understanding of the history of our Universe. Starting from the Big Bang, we can only speculate about what came "before" it, and in the first tiny fraction of a second or so, then we (think we) know what went on in the next few seconds, then for a couple of hundred thousand years it's all blank again (at least experimentally), then again a weird spike of information, and then another gap, and so on... so much room to fill for understanding. The state of the Universe after CMB but before "normal" galaxy formation is one of the larger gaps and one that this goes some way towards filling.
We have an odd understanding of the history of our Universe. Starting from the Big Bang, we can only speculate about what came "before" it, and in the first tiny fraction of a second or so, then we (think we) know what went on in the next few seconds, then for a couple of hundred thousand years it's all blank again (at least experimentally), then again a weird spike of information, and then another gap, and so on... so much room to fill for understanding. The state of the Universe after CMB but before "normal" galaxy formation is one of the larger gaps and one that this goes some way towards filling.
-- answer removed --
@Bazile
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However what i'm getting at is that the universe did not come into existence at it's current size , with us being at point A, 13 billion miles from point B , where this galaxy is ( if you see what i mean )
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I think you wrote "miles" unintentionally and meant "light years"?
I think it is best to picture the photons as like a person running along a near-light-speed travellator, running in the opposite direction to its travel to us.
From a frame of reference sideways on, it would procede at a crawl but that's a conceptual cheat on my part. Space is stretching in such a way that this wouldn't be perceptible.
Besides, you can't see photons from side-on.
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However what i'm getting at is that the universe did not come into existence at it's current size , with us being at point A, 13 billion miles from point B , where this galaxy is ( if you see what i mean )
//
I think you wrote "miles" unintentionally and meant "light years"?
I think it is best to picture the photons as like a person running along a near-light-speed travellator, running in the opposite direction to its travel to us.
From a frame of reference sideways on, it would procede at a crawl but that's a conceptual cheat on my part. Space is stretching in such a way that this wouldn't be perceptible.
Besides, you can't see photons from side-on.
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