Surprise Galaxies at the Edge of Observable Space 116
brindafella writes "A scientist at the Australian National University's Mount Stromlo & Siding Springs Observatories, Dr Paul Francis, has dicovered a string of galaxies 300 light years long, and further out than they 'should' be. The team were refused time on a US telescope because many American astronomers believed the observations were technically impossible. The findings have been presented at the American Astronomical Society meeting in Atlanta. 'We have detected 37 galaxies and one quasar in the string, but it probably contains many thousands of galaxies.' He said the galaxy string lay 10,800 million light-years away. See the animation here."
300 light years? (Score:4, Insightful)
That can't be right.
Re:300 light years? (Score:5, Informative)
Re:300 light years? (Score:1, Informative)
Re:300 light years? (Score:1)
Re:Units please (Score:2)
3.1038479 * 10^22 football fields.
91.9783741 * 10^6 parsecs.
Re:300 light years? (Score:2, Informative)
Re:300 light years? (Score:2)
That's like saying "since you moved 100 metres in the last hour we'll conclude you're moving at the rate of 100 kilometers an hour". Is this an editing snafu on their part or am I missing something?
Re:300 light years? (Score:1)
Perhaps.. (Score:2, Insightful)
Remember the article on heresy earlier? (Score:2)
Good to see human kind have progressed so much since the days of Galileo. Kidding ofcourse. They did not have to wait centuries for people to stop trying to burn them at the cross.
Re:Perhaps.. (Score:2)
Re:Perhaps.. (Score:3, Funny)
Now dont mind me as I take a stroll to the edge of the world.
NASA (Score:5, Informative)
Re:NASA (Score:3, Insightful)
Those galaxies look so tiny, it's hard to imagine the scale involved.
Hooray for the status quo... (Score:4, Insightful)
This is just sad. I sometimes think we'd be centuries ahead in science if theorists could lay aside their egos and realize that hardly any theory lasts forever in its entirety. Refusing time to a group of astronomers who think they may have found something new is not so different from burning heretics who claimed the world was a sphere.
Maybe overdramatic, but my point stands.
Re: Hooray for the status quo... (Score:5, Insightful)
> > The team were refused time on a US telescope because many American astronomers believed the observations were technically impossible
> Refusing time to a group of astronomers who think they may have found something new is not so different from burning heretics who claimed the world was a sphere.
It's not like there are enough telescopes for everyone to get all the time they want. Sometimes a judgement call is required, and sometimes judgement calls are going to be wrong.
It's not like these people have been labeled heretics and refused time on any telescope. Otherwise we wouldn't be hearing these results.
Re: Hooray for the status quo... (Score:1)
Re:Hooray for the status quo... (Score:2)
money
In science, we have to choose what research projects get funding. Someone is going to be rejected, we can't let everyone do what they want... unless we have a whole lot more funding.
For example, if we had more telescopes, then people wouldn't have to argue over who gets to use them.
In this case, the header was very misleading. They used the National Science Foundation's (a US government agency) Cerro Tololo Inter-American Observatory in Chile and were given fund
Re:Hooray for the status quo... (Score:1)
A very common occurance. See below.
Way overdramatic, but the article sensationlistically led you on. For one thing, they were refused time on a particular U.S. telescope, n
Re:Hooray for the status quo... (Score:1)
I sometimes think we'd be centuries ahead in science if theorists could lay aside their egos and realize that hardly any theory lasts forever in its entirety.
1) In what sense would we be "ahead" if the theories are always basically meaningless (we're going to replace them eventually anyway). 2) If every theory was taken seriously, there would be a lot of overhead added, so maybe we would not in fact be farther ahead (what evidence do you have other than your intuition?).
Maybe overdramatic, but my po
Big Bang (Score:2)
Re:Big Bang (Score:1)
Re:Hooray for the status quo... (Score:2)
Impossible (Score:3, Interesting)
So thats the state of American science, only look at things that agree with current theory!
I guess Galileo's ideas were impossible too, no need for the pope to take a look through the telescope cos he already KNOWS Galileo is making it all up.
Bad science, but very quick science.
Shame!
Sam
Re:Impossible (Score:3, Insightful)
Time is limited on the big 'scopes.
Re:Impossible (Score:2)
Sam
Re:Impossible (Score:1)
"So thats the state of American science"
Why do you single out American science? I guess in other countries, people never get turned down for telescope time?
Laugh! Re:Impossible (Score:2)
I didn't single out American Science I commented on Italian Science too.
I mentioned American Science because it was American Scientists who denied use of the telescope. The poitn was that they were turned down, but the reason.
Seriously; I think you can see the difference between having a "theory" that the universe is made of cheese and observing something that looks like a galaxy in an unusual place and w
Re:Laugh! Re:Impossible (Score:1)
You said "the difference between having a "theory" that the universe is made of cheese and observing something that looks like a galaxy in an unusual place and wanted to use a better telescope to check it."
There was no first telscope. It was all speculation. The article is a little ambiguous, it should say that they hadnt observed something that looks like a galaxy in the wrong place, in fact they hadnt observed
Re:Impossible (Score:3, Insightful)
"The team were refused time on a US telescope because many American astronomers believed the observations were technically impossible."
This has nothing to do with theory. It has to do with trying to take very deep spectra of a whole lot of very faint objects spread over a relatively large area of sky. It's really hard.
[TMB]
What is impossible (Score:2)
I thought the former, you make me think it might mean the latter, in which case: fair enough - it would be like some kid wanting to borrow my multi-meter to stick on the end of an antenna and measure signal strength.
Re:What is impossible (Score:2)
[TMB]
Re: (Score:1)
The rational US response... (Score:1, Funny)
Re:The rational US response... (Score:2)
Learning to Say More Ofte (Score:3, Insightful)
Irony? Despite being refused, where do they present the results ...
Where's the string? (Score:2)
Re:Where's the string? (Score:1)
Re:Intelligent Design (Score:1)
Whatever the case, this will be interesting either way, if corroborated, a lot of new theories, etc., if not they will end up with tatoos labeling them as crackpots.
Who's got the odds on this bet?
Re:Intelligent Design (Score:3, Insightful)
As any good evolutionist knows , after the "Big Bang" all the matter in the universe, which had been compressed (through forces and mechanisms unknowable) into a very tiny ball, exploded outward (spherically, with planar tendencies) with tremendous force.
This observation of thousands of galaxies SO FAR OUT from the assumed center of the "Big Bang"
(snip)
Your criticisms would carry more weight if they demonstrated that you understood the relativistic hot Big Bang model at all. The Big Bang model doe
Re:Intelligent Design (Score:1)
outside force creating the universe (Score:2)
Intiution tells me that the universe didn't start with a big bang (at least nothing like big bang theory), but it also tells me that the only possible "God"-like thing that could exist will exist in the future (from our perspective) rather than having been around all along but not doing anything overt since second 0 (or the end of day 6 if you want to get silly).
I have had experiences that I took to be confirmations of my previously ad
Re:outside force creating the universe (Score:3, Interesting)
Does the concept of a "universe" leave room for anything "outside" of it?
Yes, and no: depending on who you talk to, and the definition of Universe. The best one I can come up with is "all space which is connected (in a mathematical sense) and includes me at the present time". In that sense, regions of black holes are another Universe, for instance.
There are other statements like "the Universe is everything that can be observed", which is a much more limiting definition (fundamentally, there's a ton of
Re:outside force creating the universe (Score:2)
There are other statements like "the Universe is everything that can be observed", which is a much more limiting definition (fundamentally, there's a ton of spacetime outside all of humanity's forward and backward light cones), or "th
Re:outside force creating the universe (Score:3, Informative)
> Yes, and no: depending on who you talk to, and the definition of Universe.
> The best one I can come up with is "all space which is connected (in a
> mathematical sense) and includes me at the present time". In that sense,
> regions of black holes are another Universe, for instance.
>
> There are other statements like "the Universe is everything that can be observed",
> which is a much more limiting definition (fundamentally, there's a ton of
> spacetime outside all of humanity
Re:outside force creating the universe (Score:2)
I think "mathematically connected" was reffering to trasitive connectivity. We are in the same universe as a star 10 billion light years away. We are in the same universe with everything it sees in its universe, even if some of those things are outside our light cones.
Light cones is a reasonable definition of universe, but in most cases it makes more sense to say that you a
whoa, you just blew my mind! (Score:2)
Actually I'm much more interested in how you combine relativity and quantum mechanics- do you have testable predictions?
Then lets hear whether multiple worlds actually exist or whether there are non-subjective collapses. H
Re:whoa, you just blew my mind! (Score:2)
("it is" is contracted as "it's", not its. Its is the possessive of it.)
Er? Most of what I said was just logic. No grand unified theory is needed to show that the strong anthropic principle is unprovable. Look at its contrapositive and inverse: the two are untestably equal.
Now, if you're talking about me saying that the Big Bang had to happen because of the CMBR, read up on Big Bang theory. It's
Re:Intelligent Design (Score:2, Informative)
What's important about these galaxies is their age. Since they are ten billion light years away, the light that is reaching us now is an image of their state ten billion years ago. When the universe was that young, galaxies wouldn't yet have had time to organize themselves into strings.
The most straightforward explanation is that the universe is older than we thought. T
Re:Intelligent Design (Score:2)
The most straightforward explanation is that the universe is older than we thought. That has already been postulated as a component of other theories-- various ideas about dark matter, the cosmological constant, etc.-- meaning it's not entirely contrary to current thinking.
Actually, the most straightforward explanation is that galaxies form differently than we think. Considering we have no evidence to the contrary (all we have are simulations), and we do have a fair amount of evidence on the value of th
Re:Intelligent Design (Score:2)
Actually, the most straightforward explanation is that galaxies form differently than we think. Considering we have no evidence to the contrary (all we have are simulations), and we do have a fair amount of evidence on the value of the Hubble constant, and therefore an estimate of the age of the Universe, the theory that requires the least changes in the current model would be that galaxies form quicker, and differently, than current theory allows.
I can't make up my mind whether this is the most straig
Re:Intelligent Design (Score:2)
Re:Intelligent Design (Score:2)
I've heard this before, and although I don't disagree with it, I've never been able to wrap my brain around it. It seems to me that any explosion has a center, or a point of origin. Even one that expands out into "nothing" like the Big Bang did/is.
Like I said, I don't disagree with what you said, I've heard it before by people who know a lot more about the subject than I do, I've just never been able t
Re:Intelligent Design (Score:5, Informative)
> This surprise has nothing to do with distance from the "center" of the big bang,
> since there is no center
I've heard this before, and although I don't disagree with it, I've never been able to wrap my brain around it. It seems to me that any explosion has a center, or a point of origin. Even one that expands out into "nothing" like the Big Bang did/is.
This is, unfortunately, a flaw in the name of the model. It conjures up the idea of an explosion of material into surrounding empty space, which is not what the Big Bang model describes. The expansion of the Universe is an expansion of space itself. The galaxies grow farther apart not because they are moving away from each other through space, but because space itself is expanding between them.
Not that that necessarily makes things easier for you. Fundamentally, this points out a failure of one of our most useful way of understanding thimgs: to relate them to things we already understand, or with which we are already familiar. For instance, when authors of cosmology books for laypersons construct analogies to the expansion of space and the resulting increasing separation of the galaxies, they use things like a loaf of raisin bread expanding in the oven. But that analogy is flawed: the raisin bread has space surrounding it into which it can expand (not to mention a "center"), while no such thing exists for the universe.
A better analogy in that it gets rid of the embedded center is to give up our 3D universe, and instead consider the 2D surface of an inflating balloon. Dots (galaxies) painted on the balloon's surface are all getting farther and farther apart from each other on the surface of the balloon (in space), but no place on the surface of the balloon (no location in the Universe) can be called the center of the expansion (the one place from which things started expanding apart). But this analogy is a bad one, as well. It makes an assumption about the topology of the universe (that it loops around on itself, or is "closed"); the Universe may be that way, but it need not be. More importantly, this analogy requires the existence of a 3rd dimension (the radial direction) separate from the 2D surface of the balloon; a change in the position of the surface of the balloon with time in that radial direction describes the expansion. But the Big Bang model doesn't require such a hidden dimension which is driving the expansion.
There just isn't something from our day-to-day lives which provides a decent analogy to the expansion of the Universe. It has to be understood on its own terms, without recourse to simple visualization. Not that this is uncommon in physics since the beginning of the 20th Century; for instance, quantum mechanics describes phenomena which are difficult to impossible to describe in terms of how things work in our common sense, everyday world. In the end, it comes down to a quote from (I think) Feynman (although he was talking about quantum mechanics at the time): "I don't know how to describe it in terms of something you're more familiar with, because I don't understand it in terms of something you're more familiar with."
Re:Intelligent Design (Score:2)
You're probably right; as these things get more complex, they must be understood on their own terms. I guess I need to get off my butt and find a good book on the subject, then get back on my butt and read
Re:Intelligent Design (Score:2)
Imagine space is the surface of the balloon. There is no inside or outside, the surface is all there is. It can't moving or expand because that "outward" direction doesn't exist. It is just this surface sitting there. It has dots painted on it, the various galaxies.
Now imagine the rubber of the balloon. It starts out hot and soft. You can quickly run from one point to another in one second. One light-second is the "di
Re:Intelligent Design (Score:2)
So, everything moves apart, but there is no overall center. Any given set of objects will seem to be moving away from a given point, but if you add more objects, that apparent convergence point will change. The same thing if you watch them for very long.
That was my problem; I was always imagining from the exterior. There is no exteri
Re:Intelligent Design (Score:3, Interesting)
That concept I understand. Your simple restatement of it though makes me wonder... has there been any thinking/investigation of whether the Plank constant could have (gradually) changed during some stage of the Big Bang and/or what the consequences of such a change would entail?
--LP
Re:Intelligent Design (Score:1)
Visualize a balloon filled with air. The surface of its rubber sheet represents the universe. Get a marker and make some dots on the balloon's surface; those are galaxies.
Now start heating the balloon, so the air inside expands. This will make the balloon bigger. As it enlarges, the dots will get further apart. This is the expansion of the universe.
Note that there is no spot on the balloon that can be called the "center" of the expansion. The expansi
Re:Intelligent Design (Score:5, Informative)
Actually, you're messing up what chaotic means in this case. A string formation may or may not be chaotic, depending on the creation mechanism. In the early days of the Universe, matter would be uniform, not "chaotic". If it was formed as a string, then this would be consistent with an early age, because it hadn't had time for their peculiar velocities to distort the formation. If they didn't form as a string, then it wouldn't be consistent with an early age, because gravity wouldn't've had time to pull them into that shape (assuming it could).
The light that's coming from the farthest away from us is uniform - we call it the Cosmic Microwave Background Radiation. And, amazingly enough, it's incredibly uniform and isotropic. Anisotropies in the CMBR are incredibly small.
If you doubt the Big Bang, get a microwave telescope and look around you. If a Big Bang didn't happen, SOME gigantic, uniform explosion happened, because there's this gigantic, uniform explosion everywhere around you. And it's redshifted by something like z = 10,000 : around 100,000 years after the Big Bang, if my memory serves. That is the universe, as it was very, very close to the Big Bang.
This observation just shows that galaxies formed quicker and faster than theorists predicted. This is not a big deal.
After all, theorists for a while had a hard time explaining how galaxies formed at all. The string formation may suggest that cosmic strings (1-dimensional topological defects) may actually have existed in the early universe. Cosmic strings have been "down on their luck" theoretically recently, as the preponderance of dark matter and energy have convinced many people you don't actually need cosmic strings. This may start them thinking otherwise.
"faith" to believe that that universe was created by chance than it does to believe that SOME outside, intelligent force "caused" it to be (the details of which are certainly open to debate).
Chance has a perspective issue. Saying something happened by "chance" and saying that it was "planned" is a matter of belief, not of fact. Nowhere do scientists say why something happened. Just how. Trying to use scientific arguments to justify a "why" is flat wrong - you're trying to justify a statement that requires evidence outside of a proper frame of reference. It's similar to the problems with the strong anthropic principle - fundamentally, from our point of view, it's indistiguishable from its opposite (oddly enough, because of the weak anthropic principle). You can't tell the difference between a "chance" creation or a "designed" creation by an intelligent force because they produce exactly the same results, because fundamentally, you have to produce a universe capable of having humans (the weak anthropic principle). We have no knowledge of the number of "dead" universes, nor whether or not "dead" universes could even exist. Therefore, from our point of view, there's no way to prove which is correct, and which is incorrect, and therefore, it's a matter of belief, not of science.
Re:Intelligent Design (Score:1)
I have my own theory that also accounts for the observed quantization of the red shift of light (which IMHO there is no current plausible model to explain).
In a nutshell my theory is based on the collapse of a photons quantum function causing a second low energy photon to be scatterred (resulting in the background radiation) and the first photon to lose that same amount of energy. This would occu
Re:Intelligent Design (Score:2)
There are science trolls on Slashdot now? That's new!
Well, I like to feed trolls to make sure that someone perusing
The quantization of red shift was an artifact. There's a paper in MNRAS from quite some time ago which shows no periodicity in redshifts as was thought before.
The rest of your post is pretty much pure troll, as photons can't interact with photons without a
Re: Intelligent Design (Score:2)
> Very interesting - If corroborated, then this data presents a huge stumbling block for the standard evolutionary "Big Bang" theory. As any good evolutionist knows
Thank you for trolling.
The article does not call the Big Bang into question.
BTW, evolution and the big bang are separate theories; neither relies on the existence of the other.
> This observation of thousands of galaxies SO FAR OUT from the assumed center of the "Big Bang" doesn't make sense, since the matter comprising those galaxies
A Bad Theory (Score:4, Insightful)
What ID completely ignores is the fact that any universe that would have rules that would be shitty for life and intelligence would never realize it. In other words, there could have been a billion big bangs all that developed different laws. In all of these big bangs there might have been only one where all the laws arrived to allow for intelligence (humans) to observe it.
ID theory also suffers from the simple fact that a good theory can devise be disproved. You can never prove a good theory, but you can always find a way to disprove it. If you develop a theory that can not be disproved, then you have not added much. You have just engaged a logic exercise, not any sort of true science.
ID has no place in science. ID is a just a catch all for things we don't understand. It might very well come that one day we discover through science some intelligent power that created everything, however, until that time ID is very much a premature. ID is based upon the observation that the universe is elegant in its construction. To automatically assume that this means that some higher power is at work is utterly foolish.
As to the topic at hand, the only thing that this proves is that current theories could be potentially incomplete. It very well could be that the universe is older then it appears, and this would of course require modifying or scrapping the current theories. It isn't a death blow by any stretch of the imagination. It also is still need a great deal more scientific validation before it can be shown that what we are looking at is as old as these scientist claim.
Re:A Bad Theory (Score:2)
What ID completely ignores is the fact that any universe that would have rules that would be shitty for life and intelligence would never realize it. In other words, there could have been a billion big bangs all that developed different laws. In all of these big bangs there might have been only one where all the laws arrived to allow for intelligence (humans) to observe it.
Exactly correct. Intelligent design (and likewise the similarly-worded strong anthropic principle) are unprovable because their cont
Re:A pox on both your houses (Score:2)
If ID would claim that it is equally provable/disprovable as chance development, it's crap still. They're not "equally" provable or disprovable. Chance d
Re:Intelligent Design (Score:2)
Re:Intelligent Design (Score:4, Insightful)
As any good evolutionist knows
First of all evolution and the big bang have absolutely nothing in common aside from the fact that they are both science. You may as well have said "As any good gravitationist knows..."
after the "Big Bang" all the matter in the universe, which had been compressed (through forces and mechanisms unknowable) into a very tiny ball, exploded outward
All of the matter and energy was evenly spread through out the entire universe, all the way back to the big bang. Matter did not "explode". Space expanded. Bits of matter got farther from other bits of matter because the space between them expanded. Everything was densely packed in a miniscule space because there was only miniscule amout of space in the universe. And that miniscule amount of space had no "outer edge".
(spherically, with planar tendencies)
Sphereically? No. You are imagining some exploding ball, and that is an absolutely totally wrong image. The best way to explain it would be as the skin of an expanding 4 dimentional hyper-sphere, but I really don't relish the prospect of trying to stretch your mind around that concept.
No "planar tendancies" either. Aside from random fluctuations everything was smooth and equal throughout the universe. Everywhere was just like everywhere else. No edge, no center, no fast, no slow. The good old balloon analogy - when you blow up a ballon the surface expands, but every point on the surface is exactly like every other point. The surface of a balloon has no edge, no center, no explosion, no part moving any faster or any differently than any other part.
with tremendous force.
You are reffering to some imaginary explosive force of matter pushing out. There was no explosion and there was no "out" to push to. Expanding space dragged the matter apart. No explosive force at all. It expanded like the surface of a balloon, not like a stick of dynamite.
All of this random matter eventually coagulated into more and more complicated forms until stars, planets, and the like were formed.
Hey! You got that part right!
This observation of thousands of galaxies SO FAR OUT from the assumed center of the "Big Bang" doesn't make sense
Chuckle. You're quite right that what you said makes absolutely no sense.
There is no "assumed center" of the big bang, at least not within our 3-dimentional universe. At any given time every point in the universe is the same "distance" from the big bang.
Those galaxies are far from us, but you are completely wrong to imagine they are "FAR OUT" at the edge of the big bang. To the extent that it makes sense to reffer to the "distance to the center of the big bang", those galaxies are extremely CLOSE to the center because you are looking back in time. You are imagining them out at some low-density surface of an explosion, these galaxies are actually in a HIGH DENSITY region, they are much closer to the big bang itself.
You are making the classic mistake of picturing the Earth as the center of the universe. From our point of view the Earth is at the outermost edge of the big bang from every direction. No matter which direction you look from the Earth you are looking back towards the "center" of the big bang because you are looking back in time. As you look billions of light years away in every direction you see increasing mass density and you are looking closer and closer to the "center" of the big bang.
From our point of view we see ourselves at the oldest lowest density outermost edge of the big bang - the outermost edge from every direction.
since the matter comprising those galaxies (being the furthest out from center and thus having the greate
Re:Intelligent Design (Score:2)
Specified complexity is displayed by any object or event that has an extremely low probability of occurring by chance, and matches a discernable pattern. According to contemporary design theory, the presence of highly specified complexity is an indicator of an intelligent cause.
and also
When a design theorist says that a string of letters is specified, he's saying that it fits a recognizable pattern. And when he says it's complex,
Its Imposible... (Score:2, Insightful)
Well maybe the model is wrong.
Re:Its Imposible... (Score:2)
Yet another nail into Big Bang's heart... (Score:1, Troll)
Ah, like all other human things, politics, jealousy and orthodoxy are science's greatest pain in the ass. It's a real shame that you have to wait for the white beards to retire or die before scrapping their pet theories or get out of the basement and have a real lab...
Now, I wonder what kind of superforce, string, lace, lasso, wim
Re: Yet another nail into Big Bang's heart... (Score:2)
What makes you interpret this as a nail into the Big Bang's heart? There's nothing in the article that suggests that the Big Bang didn't happen. In fact it gives the known date of the Big Bang.
The scientist comments -
Does that sound like a denial of the Big Bang?
Re: Yet another nail into Big Bang's heart... (Score:2)
Re: Yet another nail into Big Bang's heart... (Score:3, Insightful)
It's just yet-another-inconsistency in the n-th hack to the BB theory introduced to clean up previous gripes.
Can you be more specific? What's the inconsistency here, with what is it inconsistent, and how does that inconsistency speak to the Big Bang model as a whole, specifically? I'm not saying you're wrong (yet); I just can't address your statement directly because it's too vague.
There are without question unsolved problems in cosmology (thank heavens; otherwise, cosmologists would have little to
Re: Yet another nail into Big Bang's heart... (Score:2)
Re: Yet another nail into Big Bang's heart... (Score:4, Insightful)
Well, the BB story has gone along for so much time... some new data whacks it, ok... small nudge and it's consistent.
Can you give an example?
Some new research threatens boatloads of papers, ok... mop it under the rug.
Can you give an example?
Average, uninitiated scientists can't make heads or tails of the nasty slew of hypotherical particles and their family relations (that HAS to be true because it fits the model!)... oh, they're just ignorant.
The Big Bang model makes no predictions whatsoever about the existence of any hypothetical particles, let alone a "nasty slew." The only particles required to be present for the Big Bang model to make accurate predictions are those expected to still be relativistic at the time of Big Bang Nucleosynthesis: namely, the three families of baryons and leptons that we've already detected in experiments here on Earth. In fact, when the BBN calculations were first done, it was discovered that the predictions only made sense if there were three or fewer families of fundamental particles. At that time, we only knew of two for sure. We've since discovered the third in particle accelerators, and measurements of the decay width of the Z0 particle 13 years ago confirmed that no more than three such families could exist. So, contrary to your statement, the Big Bang model not only doesn't predict a "nasty slew of hypothetical particles," but at this point it doesn't predict any hypothetical particles at all, and indeed sets a limit on how many light ones can exist.
It looks to me like you don't know what the Big Bang model actually says. And it looks to me like you don't know what's not the Big Bang model -- that is, what are other ideas that are taken seriously as part of the standard cosmology but are not part of the Big Bang model itself because they deal with cosmological topics that the Big Bang model does not directly address.
Hmm, I've grocked EM and some quantum physics (the basics: Schroedinger, Fermi and the avg undergraduate stuff in a Solid State Phy course) and never got the Alice in Wonderland feeling.
Really? Wow. One of the reasons I loved quantum so much, through undergrad and grad school, was how something that seemed so "Alice in Wonderland"-y to me could be so solidly borne out by experiment. I mean, tunnelling through potential barriers? Come on. But amazingly enough, the answers come out right.
You might argue that modern cosmology can account for all the data (or just give it enough time and it will) but anyone can shoehorn a dataset in a model... just add some epicycles, a nudge here, a constant there... it'll all fit.
But can you give me some examples of how this has gone on, with respect to the Big Bang model?
Our cosmological understanding has undergone a tremendous amount of change in the last 20-25 years, as cosmology has gone from a data-starved science to a data-rich one. Lots of ideas have been put forward, "tweaked" (as you say), shot down, resuscitated, etc. None of that has to do with the Big Bang model. People have definitely tried to massage pet theories when data has come in that didn't quite fit (the topological defect folks -- cosmic strings, etc. -- come to mind); but those theories were not the Big Bang model.
It really seems to me like you don't know, of the set of ideas that make up the standard cosmology and those additional ideas that are taken seriously but not yet fully accepted, what's part of the Big Bang model and what isn't. The popular press carries some of the blame for this -- the phrase "the Big Bang model" is all the cosmology most newspaper science writers know, so when results have challenged cosmological orthodoxy, they've sometimes been described as challenges to the Big Bang model, even though in actuality they've typically said nothing whatsoever one way or the other about the Big Bang model.
So, I just wished these guys p
Re: Yet another nail into Big Bang's heart... (Score:2)
> Well, the BB story has gone along for so much time... some new data whacks it, ok... small nudge and it's consistent.
Can you give an example?
*laugh* I'll bite :) Here are a few:
* The "flat universe" case gives a Hubble constant of 65 km/s/Mpc (megaparsec). This amounts to an age of the universe of ~10 billion years. This is one of the "age paradoxes" that have led to some of the more interesting revisions and proposed revisions.
* The temperature of the cosmic background radiation was a ret
Re: Yet another nail into Big Bang's heart... (Score:2)
First of all, thanks for coming in with some specifics. Not that I agree with them, but at least now there are things which are not vaguaries to which I can respond.
Unfortunately, responding adequately is going to take a lot of time and a lot of space. I don't know who's still reading this at this point, but I'm going to have to do this over several replies and over time. I hope that's OK.
The "flat universe" case gives a Hubble constant of 65 km/s/Mpc (megaparsec). This amounts to an age of the uni
Re: Yet another nail into Big Bang's heart... (Score:2)
I can appreciate that that took a few-hour chunk out of the middle of the day; you've given me a few things to track down.
There is a most excellent paper by Xinhe Ming and Peng Wang from August 31, 2003 that led to the decelerated-then-accelerating model that has raised my eyebrows so much located here [arxiv.org].
The equations of state resemble (to me) the way computers use polynomials to approximate sines and other trigonometric functions (with less terms, mind you, but we already know the infinite polynomial se
Re: Yet another nail into Big Bang's heart... (Score:2)
OK, here's a batch more response. I hope this is interesting . . .
The temperature of the cosmic background radiation was a retrodiction, not a prediction. Alpher and Herman got the closest, with a prediction of 5 Kelvins, but what you don't often hear is that the prediction was later adjusted to 28 Kelvins.
This is pretty commonly brought up by proponents of alternative cosmologies. I've had discussions with proponents of several in the past, and this frequently gets mentioned. It's unfortunate, be
Re: Yet another nail into Big Bang's heart... (Score:1)
No prediction of the cosmic microwave background's blackbody temperature prior to the CMBR's discovery was ever thought very likely correct
Predictions were made, though, from Steffan-Boltzmann laws, of blackbody cosmic background radiation in an infinite/static universe configuration by Guillaume in 1896 (5-6K), Eddington in 1926 (3.18K), Regener (2.8K) and Nernst (0.75K on a tired light model).
It is the mere existence of the microwave background -- its omnidirectional uniformity and amazing blackbod
Warped space? (Score:2)
Re:Warped space? (Score:2)
Anyone in Atlanta or who knows these guys? (Score:3, Interesting)
The NASA page on this quotes a redshift of 2.38. Do they say how they got it? Did they take full spectra from all these objects? Are some of them Lyman break galaxies? Are any of the redshifts photometric rather than spectroscopic?
Re:Anyone in Atlanta or who knows these guys? (Score:3, Informative)
These are Lyman emitting galaxies, initially identified using a special camera with narrow band filters targeted at this redshift (a previously known z = 2.38 cluster was in the field which I think is why they picked it). They then used a multi-object spectrograph (2dF) to spectroscopically confirm the redshifts (second paper).
Doug
Re:Anyone in Atlanta or who knows these guys? (Score:1)
Re:Anyone in Atlanta or who knows these guys? (Score:1)
Doug
Blame it on the monkeys. (Score:1, Interesting)
Likewise, while there may be an infinite number of finite variables when dealing with the Big Bang, there are certainly an infinite number of possibilities. It's possible that this just happened to
Pathway to another "universe"? (Score:1)
This trail of galaxies may be a path leading to our closest neighboring universe.
Re:Pathway to another "universe"? (Score:1)
Yop!
Beginning of the Universe - Prove it! (Score:1)
Re:Beginning of the Universe - Prove it! (Score:2)
You know when you see lightening and hear the thunder anywhere from a split second later up to a few seconds later? The farther away the lightning is the longer it takes the sound to reach you.
If you built a microphone (telescope) to pick up thunder from 12 miles away you'd be hearing lightning from about a minute in the past.
If you built a microphone (telescope) to pick up thunder from 6 million miles
Re:Beginning of the Universe - Prove it! (Score:1)
Re:Beginning of the Universe - Prove it! (Score:2)
and whose to say that the Universe doesn't oscillate?
That possibility is still definitely on the table, but it's losing support. A universe that slows, stops, and falls back in a "Big Crunch" is a negative curvature universe. A universe that expands infinitely is a positive curvature universe. Between them you have a precise zero-point, a "flat" zero curvature universe where the expansion rate slows infinitely close to zero.
There are very strong theoretical reasons to think that the un
Re:Beginning of the Universe - Prove it! (Score:3, Informative)
> and whose to say that the Universe doesn't oscillate?
That possibility is still definitely on the table, but it's losing support.
It has almost no support in the mainstream cosmological community, and hasn't for quite a while.
A universe that slows, stops, and falls back in a "Big Crunch" is a negative curvature universe. A universe that expands infinitely is a positive curvature universe. Between them you have a precise zero-point, a "flat" zero curvature universe where the expansion rate sl
Re:Beginning of the Universe - Prove it! (Score:2)
Yep, I made a silly reversal. Spheres are positive, saddles are negative, and my brain wasn't paying attention to what I typed
flat universes... (I think you were trying to say that
Right. A limited amount of expansion, but taking forever to slow to a stop. Hmmm, now that I think about it that is a pain in the ass concept to communicate simply and clearly and exactly in "plain" non-math non-science english.
Re: cosmological constant / vacuum
string of galaxies (Score:1)