Big Bang Theory: Exploring a Possible Origin of the Universe

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In summary: The parameters that have come from WMAP make...The study of the universe has come a long way in the last few years with the release of the Wilkinson Microwave Anisotropy Probe (WMAP) in 2001. The data from this probe has allowed scientists to make some remarkable discoveries about the universe. Recently, a paper has been published that examines the possibility that the universe is expanding at an ever- increasing rate. The study of the universe has come a long way in the last few years with the release of the Wilkinson Microwave Anisotropy Probe (WMAP) in 2001. The data from this probe has allowed scientists to make some remarkable discoveries about the universe. Recently, a paper has been published that
  • #1
tanzanos
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I have been thinking about how the universe came to be and this idea came to me:

Suppose space is comprised of parallel super dimensions (branes) and one contains a universe that is collapsing. As the universe nears a singularity; space will warp into an outward cone. If this cone touches an empty (no mater nor time) Brane (super dimension) then the oposite will occur as a big bang. The singularity will spill out into the empty super dimension. Could this be possible?
 

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  • #2
tanzanos said:
I have been thinking about how the universe came to be and this idea came to me:

Suppose space is comprised of parallel super dimensions (branes) and one contains a universe that is collapsing. As the universe nears a singularity; space will warp into an outward cone. If this cone touches an empty (no mater nor time) Brane (super dimension) then the oposite will occur as a big bang. The singularity will spill out into the empty super dimension. Could this be possible?

Of course that begs the question of where did these extra dimensions and branes come from.
 
  • #3
friend said:
Of course that begs the question of where did these extra dimensions and branes come from.
Perhaps they are not even dimensions but areas that differ enough to cause such an effect?
 
  • #4
Yes it's possible. Coming up with explanations of what happened before the big bang is quite easy, but it's so easy that I don't think it's very fun and challenging...

Now for the hard part...

What experiment or observation can you do to demonstrate that what you described *DIDN'T* happen. That's the hard part. The trouble with talking about things before the big bang is that you can make up just about anything.

I claim that the big bang was the result of giant multi-dimensional turtles sneezing. Try coming up with an experiment that shows that this *didn't* happen. It's quite difficult.
 
  • #5
tanzanos said:
Perhaps they are not even dimensions but areas that differ enough to cause such an effect?
That would mean these "areas" have to have properties.
 
  • #6
twofish-quant said:
Yes it's possible. Coming up with explanations of what happened before the big bang is quite easy, but it's so easy that I don't think it's very fun and challenging...

Now for the hard part...

What experiment or observation can you do to demonstrate that what you described *DIDN'T* happen. That's the hard part. The trouble with talking about things before the big bang is that you can make up just about anything.

I claim that the big bang was the result of giant multi-dimensional turtles sneezing. Try coming up with an experiment that shows that this *didn't* happen. It's quite difficult.
Very true! One way to hypothesize is to reverse the big bang. The entropy that caused the singularity to expand into an universe must still be present and thus allow for a repetitive "death rebirth" situation.
 
  • #7
I was thinking, isn't theoretically possible that the entire universe will eventually be pulled into a black hole. One black hole sucks in another black hole until everything is sucked in. Maybe at this point once everything is sucked in, that a "big bang" occurs? Is possible that the universe goes through cycles?
 
  • #8
m115919h said:
I was thinking, isn't theoretically possible that the entire universe will eventually be pulled into a black hole. One black hole sucks in another black hole until everything is sucked in. Maybe at this point once everything is sucked in, that a "big bang" occurs? Is possible that the universe goes through cycles?
Yes and no.

In the closed model of the universe, gravity will stop the universe's expansion, reverse it and bring it back to a "Big Crunch". This would happen without any need for black holes.

Much reasearch is going into determining whether the universe is "closed", resulting in a Big Crunch, or open, resulting in an eternal expansion. The jury is still out.
 
  • #9
DaveC426913 said:
Much reasearch is going into determining whether the universe is "closed", resulting in a Big Crunch, or open, resulting in an eternal expansion. The jury is still out.

The jury has reached a verdict. The universe is open and in fact it's accelerating...
 
  • #10
twofish-quant said:
The jury has reached a verdict. The universe is open and in fact it's accelerating...

I could be mistaken, but I believe the current thinking is that it is merely probably open. Can you reference something that says otherwise?
 
  • #11
I could be mistaken, but I believe the current thinking is that it is merely probably open.
Open or not is not as relevant as it used to be. With DE, even a spatially closed universe could expand forever.
 
  • #12
DaveC426913 said:
I could be mistaken, but I believe the current thinking is that it is merely probably open. Can you reference something that says otherwise?

Here.

http://www.citeulike.org/user/seasailing/article/3846245

http://en.scientificcommons.org/21649766

The parameters that have come from WMAP make the universe quite open.
 
  • #13
Ich said:
Open or not is not as relevant as it used to be. With DE, even a spatially closed universe could expand forever.
We're not talking about that kind of open/closed. By definition, a universe that will not collapse is an open universe, and a universe that will collapse is closed.
 
  • #14
DaveC426913 said:
Yes and no.

In the closed model of the universe, gravity will stop the universe's expansion, reverse it and bring it back to a "Big Crunch". This would happen without any need for black holes.

Much reasearch is going into determining whether the universe is "closed", resulting in a Big Crunch, or open, resulting in an eternal expansion. The jury is still out.

You're about 15 years (give or take) behind on the research. No one uses the terms 'open' and 'closed' anymore as Ich pointed out. The addition of DE into the model has made the terminology redundant and prone to confusion. You can still talk about postively or negatively curved, but the fate of the Universe is determined by the DE properties, and all the evidence very clearly shows that the Universe is accelerating and will not re-collapse.

There is a lot of research going on, but this question is done and dusted, at least until some drastic change in the model occurs.

DaveC426913 said:
I could be mistaken, but I believe the current thinking is that it is merely probably open. Can you reference something that says otherwise?

Well yes, there is a formal error on the chance that the Universe will re-collapse, but if you take the current concordance model (with its errors) then a re-collapsing Universe is ruled out by a huge confidence margin. You can check the references provided by twofish-quant or read pretty much any cosmo papers written in the last decade.

DaveC426913 said:
We're not talking about that kind of open/closed. By definition, a universe that will not collapse is an open universe, and a universe that will collapse is closed.

Right, but as has been explained to you, that terminoloy is outdated and was only relevant when the whole model was described by [tex]H_0[/tex] and [tex]\Omega_m[/tex], which hasn't been the case for a long time.
 
  • #15
OK, conceded. It might be better for someone else to explain to m11915h why the universe will not collapse into black holes.
 
  • #16
Wallace said:
Right, but as has been explained to you, that terminoloy is outdated and was only relevant when the whole model was described by [tex]H_0[/tex] and [tex]\Omega_m[/tex], which hasn't been the case for a long time.

If so, why this gays from NASA are saying "Thus, there is a direct link between the geometry of the universe and its fate." on this page? And they are talking about [tex]H_0[/tex].
 
  • #17
I can't answer for what the folk who put that page together were trying to say. It does look a little disjointed, as though it was written by a committee..

The crucial point is in the first paragraph "If dark energy in fact plays a significant role in the evolution of the universe, then in all likelihood the universe will continue to expand forever." As far as the fate of the Universe is concerned, then dark energy it what matters, if indeed it exists. That second paragraph contradicts the first, so it is I agree, quite confusing! Go with the first paragraph, it is more descriptive of current theory and observations.
 
  • #18
Ich said:
Open or not is not as relevant as it used to be. With DE, even a spatially closed universe could expand forever.

Yes.
DaveC426913 said:
We're not talking about that kind of open/closed. By definition, a universe that will not collapse is an open universe, and a universe that will collapse is closed.

No, this is not the definition of "closed" and "open." The definitions refer to the topology of space (not spacetime). A universe is closed iff space (a hypersurface of simultaneity for cosmic time) is topologically compact.
Wallace said:
You're about 15 years (give or take) behind on the research. No one uses the terms 'open' and 'closed' anymore as Ich pointed out.

I think these terms are still often used; for example, in Dodelson's book Modern Cosmology. As you note, there is no longer is a correspondence between the topology of space and whether the universe expends forever or eventually contracts. But this hasn't changed what is meant by "closed" and "open" universes.
 
  • #19
Then what connection exist between matter and topology of Universe?

The topology is static or is modified by matter dynamics? Or maybe the dynamics of matter is dictated by topology?
 
  • #20
ok in my infancy of cosmology knowledge i tend to have the same theory as the starter of this thread.

heres my thinking and someone correct me please, but if black holes have the power to break matter down into fundamental particles, if the BH exploded or emptied out into another universe, wouldn't the majority or the first atoms that were rebuilt be hydrogen??

if not, then what ultimately happens to a black hole? what form of matter is hawking radiation. because if it isn't matter then where is all of the matter the black hole sucked in??
 
  • #21
tanzanos said:
Perhaps they are not even dimensions but areas that differ enough to cause such an effect?

How do you define an 'area' when time and space have shrunken almost irreducibly?
 
  • #22
memphisp said:
ok in my infancy of cosmology knowledge i tend to have the same theory as the starter of this thread.

heres my thinking and someone correct me please, but if black holes have the power to break matter down into fundamental particles, if the BH exploded or emptied out into another universe, wouldn't the majority or the first atoms that were rebuilt be hydrogen??

In my limited, laypersons' understanding, the answer to that would be no. The fundamental particles we observe and the properties that we observe for them depend on the breaking of symmetry once the singularity/black hole starts to 'bang'. If our universe shrunk to a singularity/black hole and exploded into another universe, it's likely that the fundamental particles created at the point of symmetry breaking would be completely unlike the fundamental particles we observe in nature today and would therefore 'evolve' into elements or other structures that have no relationship with our current universe. It's down to quantum instability, without which, spacetime would be perfectly uniform and matter as we know it could never have formed..
 
  • #23
I would like to propose another possibility. Perhaps a long established law of physics may be extended to construct a rudimentary pre-Big Bang cosmology. This principle to which I refer is the law of the conservation of mass-energy. If mass-energy cannot be created or destroyed, and if the universe is entirely composed of mass-energy, then the law of conservation of mass-energy may be extrapolated to this conclusion: the universe, in one form or another, in one density or another, has always existed. There was never a time when the mass-energy comprising our universe did not exist, if only in the form of an empty oscillating vacuum or an infinitely dense theoretical point called a singualrity, consisitng of no volume whatsoever.
 

1. What is the Big Bang Theory?

The Big Bang Theory is a scientific model that explains the origin of the universe. It proposes that the universe began as a single, incredibly dense and hot point, and has been expanding and cooling over the course of billions of years.

2. How did the Big Bang Theory originate?

The Big Bang Theory was first proposed in the 1920s by astronomer Georges Lemaitre, who noticed that the universe was expanding. Later, in the 1960s, scientists Arno Penzias and Robert Wilson discovered cosmic microwave background radiation, providing strong evidence for the Big Bang Theory.

3. What evidence supports the Big Bang Theory?

Aside from the discovery of cosmic microwave background radiation, the Big Bang Theory is also supported by observations of the universe's expansion and the abundance of light elements, such as hydrogen and helium. Additionally, the theory accurately predicts the distribution of galaxies in the universe.

4. Are there any alternative theories to the Big Bang Theory?

Yes, there are several alternative theories to the Big Bang, such as the Steady State theory and the Oscillating Universe theory. However, these theories have been largely disproven by scientific evidence.

5. What are some implications of the Big Bang Theory?

The Big Bang Theory has significant implications for our understanding of the universe and its origins. It helps explain the formation of galaxies, stars, and planets, and provides a framework for studying the evolution of the universe. It also supports the concept of a finite universe with a beginning, rather than an infinite and eternal existence.

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