Singularity/Expanding Universe questions

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In summary: Proving that the observable universe is expanding means observing how the distances between objects are changing. Over time, the further away objects are, the more distant they appear to be.5: It's expanding on a large scale, there are plenty of blue-shifts too.
  • #1
swerdna
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  1. How can any size be attributed to the Singularity? Given it represents all of existence, what else is it being measured against? Can it somehow be measured against itself internally?
  2. Is the Universe that expanded from the Singularity still a Singularity? The internal structure may have changed, but isn’t it still a single entity that represents all of existence?
  3. Do we know the size of the Universe now (if so, how), and how do we know that it’s not infinite?
  4. If we don’t know how big the Singularity was, or how big the Universe is, how do we know that the Universe expanded from the Singularity? Couldn’t it always have been the same size and it has just changed internally?
  5. How does proving that the observable universe is expanding by observing cosmological redshift prove that the Universe per se is expanding? How do we know what’s happening in parts of the Universe we can’t observe? Couldn’t these parts just as easily be contracting?
 
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  • #2
Very good questions

Your questions on singularity are very good indeed.
The essential point is that "what is", no matter how we may call it, is inevitably self-referential, when seen in its wholeness.
In other words, and in a simple interpretation, if it moves, it must inevitably move within itself, since there is nothing else outside of it.
Now, this self-referentiality can be manifested in very many ways.
One of them, of course, happens through us, that is, through our thinking when focused on "what is".
Consequently, issues like "infinite versus finite", "measuring against something", and so on, are but particular aspects of self-referentiality. And therefore, they are inevitably bound to break down, or at least become problematic, if pushed too far, that is, if they reach deep enough in self-referentiality.
And your questions simply do precisely that.
In other words, the scientific approach is fine, great, immensely important and useful, not to mention an exquisite fun. However, it was never really meant to be answerable to every question. And especially not to questions which push the issues too far, that is, too deep self-referentially, as for instance your questions do.
 
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  • #3
1. What Singularity?
2. No. Sure.
3. Yes, by observation. We don't.
4. What singularity? Oh... right. No.
5. It's expanding on a large scale, there are plenty of blue-shifts too.

P.S. I'm not a cosmologist. You might want to google "Cosmological Standard Model" or something to that effect.
 
  • #4
Elemer Elad Rosinger said:
Your questions on singularity are very good.
The essential point is that what is, no matter how we may call it, is inevitably self-referential, when seen in its wholeness.
In other words, and in a simple interpretation, if it moves, it must inevitably move within itself, since there is nothing else outside of it.
Now, this selfreferentiality can be manifested in very many ways.
Once of them, of course, happens through us, that is, through our thinking when focused on what is.
Consequently, issues like "infinite versus finite", "measuring against something", and so on, are but particular aspects of selfreferentiality. And therefore, they are inevitably bound to break down, or at least become problematic, is pushed too far.
And your question simply do precisely that.
In other words, the scientific approach is fine, great, immensely important and useful. However, it was never meant to be answerable to every question. And especially not to questions which push the issues too far, as for instance your questions do.

Perhaps this is a better question for the biology forum--Forum Admins feel free to move the thread as you see fit--but I'll ask it in this thread: What is the sound that a duck makes?
 
  • #5
swerdna said:
  1. How can any size be attributed to the Singularity? Given it represents all of existence, what else is it being measured against? Can it somehow be measured against itself internally?
  2. Is the Universe that expanded from the Singularity still a Singularity? The internal structure may have changed, but isn’t it still a single entity that represents all of existence?
  3. Do we know the size of the Universe now (if so, how), and how do we know that it’s not infinite?
  4. If we don’t know how big the Singularity was, or how big the Universe is, how do we know that the Universe expanded from the Singularity? Couldn’t it always have been the same size and it has just changed internally?
  5. How does proving that the observable universe is expanding by observing cosmological redshift prove that the Universe per se is expanding? How do we know what’s happening in parts of the Universe we can’t observe? Couldn’t these parts just as easily be contracting?

1&2: Firstly, a singularity is not really a physical thing, but is simply a term that is used to describe an area where the mathematics of a certain model breaks down. The beginning of the universe is one of these points-- our physical laws break down at the start of the universe.

3: We know the size of the observable universe, from observations! However, we do not know whether or not the universe is infinite or finite-- although most theorists at the moment favour a finite universe.

4: Again, a singularity is not a physical entity, and as such has no size. We think that the universe has expanded from a size smaller than it is now, by observing the galaxies around us receding. If it has always been the same size, then how could all galaxies around us be moving away from us? (Keeping in mind the cosmological principle-- we do not reside in a special part of the universe)

5: Well, the unobservable universe could be contracting, but that would firstly disagree with the cosmological principle, and secondly would make the universe a lot more complicated!
 
  • #6
Elemer Elad Rosinger said:
Your questions on singularity are very good indeed.

The fact that you say this shows that you do not understand the theory properly. As with the OP, you should read up on what is a singularity-- there are a few threads here that you may wish to search for.
 
  • #7
cristo said:
The fact that you say this shows that you do not understand the theory properly. As with the OP, you should read up on what is a singularity-- there are a few threads here that you may wish to search for.

Cristo, your reply seems a little arrogant, as if you have solved all the riddles of cosmology, understanding a theory is one thing ,but thinking it is right is another, can you tell if string theory is right ,or quantum loop gravity, or the standard model, i hope you do not take this the wrong way but AFAIK no knows what a singularity is yet.
 
  • #8
wolram said:
Cristo, your reply seems a little arrogant, as if you have solved all the riddles of cosmology, understanding a theory is one thing ,but thinking it is right is another, can you tell if string theory is right ,or quantum loop gravity, or the standard model, i hope you do not take this the wrong way but AFAIK no knows what a singularity is yet.

Well I apologise if my post sounded arrogant; it was not meant to be. My point was, however, that a singularity is not a physical entity. It is merely a mathematical tool that tells us that there is a problem with the physical law at that point. So, the fact that the big bang model has a singularity at the start simply tells us that we do not know whow to model the beginning of the universe (as we do not have a theory of quantum gravity). It is expected that when we do have such a theory, these singularities will disappear. So, the important question is regarding how to get rid of these singularities and not in what one is.
 
  • #9
Thankyou cristo, your reply is so honest.
 
  • #10
most theorists at the moment favour a finite universe
Finite with respect to what? (Is Möbius strip finite?)
 
  • #11
The good thing in cristo's comment is that he is trying to separate "flies from the soup", i.e the singularity notion from those having physical meaning. Indeed, there are theorems saynig that a sufficiently massive object will collapse to a point. Then how can we deal with a physical object transforming into a mathematical abstraction and vice versa? The "vice versa" is referring to the universe born from a point. Perhaps using the right terminology might help avoiding confusion.
 
  • #12
vld said:
The good thing in cristo's comment is that he is trying to separate "flies from the soup", i.e the singularity notion from those having physical meaning. Indeed, there are theorems saynig that a sufficiently massive object will collapse to a point. Then how can we deal with a physical object transforming into a mathematical abstraction and vice versa? The "vice versa" is referring to the universe born from a point. Perhaps using the right terminology might help avoiding confusion.

Terminology, a human idea, i must remember that, but will remembering it make it right?
 
  • #13
EnumaElish said:
Finite with respect to what? (Is Möbius strip finite?)

Yes, sure it is.
 
  • #14
Do we know the size of the universe now? Not really, it is usually assumed that it is infinite, and that the observable universe is a finite region of this infinite (or at least very large) region. Observations have not so far contradicted this idea. Experiments like http://www.sciencenews.org/pages/sn_arc98/2_21_98/bob1.htm have not found any verifiable indication of the universe having a finite size. (For a while it was thought that the universe might have a closed decahedral structure based on these experiments, but it was a false alarm).

Most tests seem to agree with a "flat" universe, which if one accepts General Relativity, implies an infinite one. (I'd have to dig for specific references on this issue, hopefully this point will not be seen as something that needs to be argued about and hence the references won't be needed).

So the current model is that the universe is infinite, and was "born infinite", but that the part we can actually see, the obserable universe, started at a point.

It should be obvious that it's very difficult to ascribe any definite notion of existence or non-existence to the parts of the universe we can't see. I haven't to my own satisfaction resolved the issue of whether things we can't see (the non-observable parts of the universe) could leave a "signature" that we could analyze.

A related comment. If we accept that the universe is infinite now, for the time being, then it was also infinite at the time of the big bang, even though what we can actually see, the observable universe was a point at the time of the big bang.

See for instance Nasa's WMAP cosmology page for a reference for this often overlooked point, which I'll quote in part:

The Big Bang did not occur at a single point in space as an "explosion." It is better thought of as the simultaneous appearance of space everywhere in the universe. That region of space that is within our present horizon was indeed no bigger than a point in the past. Nevertheless, if all of space both inside and outside our horizon is infinite now, it was born infinite. If it is closed and finite, then it was born with zero volume and grew from that.

So the current cosmological models have our observable universe starting "at a point" - they do not, however, have the entire universe (assumed to be infinite) starting at a point. I hope that helps.
 
  • #15
Thanks for the replies. Just wanted to let you know I’m still here. I don’t have time to respond at present, but I am reading.
 
  • #16
EnumaElish said:
Finite with respect to what? (Is Möbius strip finite?)

With respect to the usual definition of distance between two points; there is a maximum value for the distance between any two points on the Mobius strip.

Now consider a torus. It too is finite. For the same reasons.

Of course, there are no "walls" on a torus, but that doesn't mean it is infinite, as we have just seen. A region enclosed by "walls" too is finite. For the same reasons. Thus we have seen that having or not having "walls" doesn't correspond at all to being or not being finite...
 
  • #17
cyclic universe theory

okay, I'm new here, but i have come up with a theory related to the big bang, a variation, if you will, which i would really like to share, for the purpose of receiving critizisms, maybe somebody will point out that another person has already suggested this theory, whatever, but i wanted to bounce this idea off of people more knowledgeable and interested than most of my friends.

essentially:
over billions of years, maybe a trillion or more, all matter in the universe will have been absorbed by either many supermassive black holes, or possibly just one, if the black holes can impact and absorb each other. this last black hole will collapse under it's own gravity, perhaps condensing into the theorized singularity in the big bang theory. that point will then explode as per the big bang, and create a new universe. essentially, what if ours is not the first universe?

also, this would offer the idea that the term 'universe' could be used to describe a period of time, and not just a 'place'.

i have a few more related in-depth ideas, but before sharing them, i figured i'd go ahead and pose this question for discussion.

and if anyone would like to contact me about this for further discussion outside of this message board, I'm at imtheknife@gmail.com
 
  • #18
imtheknife said:
okay, I'm new here, but i have come up with a theory related to the big bang, a variation, if you will, which i would really like to share, for the purpose of receiving critizisms, maybe somebody will point out that another person has already suggested this theory, whatever, but i wanted to bounce this idea off of people more knowledgeable and interested than most of my friends.

essentially:
over billions of years, maybe a trillion or more, all matter in the universe will have been absorbed by either many supermassive black holes, or possibly just one, if the black holes can impact and absorb each other. this last black hole will collapse under it's own gravity, perhaps condensing into the theorized singularity in the big bang theory. that point will then explode as per the big bang, and create a new universe. essentially, what if ours is not the first universe?

also, this would offer the idea that the term 'universe' could be used to describe a period of time, and not just a 'place'.

i have a few more related in-depth ideas, but before sharing them, i figured i'd go ahead and pose this question for discussion.

and if anyone would like to contact me about this for further discussion outside of this message board, I'm at imtheknife@gmail.com
I have had similar (if not the same) thoughts. It seems many people have. Don’t want to derail my own thread with wild speculations but this a wacky thought I’ve had recently that I’ve never heard of before (maybe because it’s too stupid :-). Instead of the current model where space it universally expanding and matter isn’t, How about matter is universally shrinking and space isn’t? Seems however that the redshift in light is created by it being “stretched” by space expansion, so no cigar.
 
  • #19
imtheknife said:
okay, I'm new here, but i have come up with a theory...

Pauli would have liked this, because he could have quipped that this is not even a theory.
 
  • #20
wolram said:
Terminology, a human idea, i must remember that, but will remembering it make it right?

Better to say, in order to get it right, one has to be able to distinguish between the mathematical and physical objects. A zero-size point is obviously a mathematical object plagued with infinities. It can be succesfully used for idealisations when describing a physical object but it seems that some people take it as if it WERE a real physical object (e.g., a singularity). Terminology is a secondary thing.
 
  • #21
EnumaElish said:
Finite with respect to what? (Is Möbius strip finite?)

For cosmologists, finite universe usually means a universe that has compact spatial sections (orthogonal to cosmological time).

For example, the spacetime manifolds of Friedmann-Robertson-Walker universes are all of the form TxS, where T is the one-dimensional manifold of time and S is three-dimensional space. There are three possibilities for S: the hypersphere S^3; the hyperplane R^3; a hyperbolic 3-space. Space is compact (finite) for the first possibility and non-compact for the other two possibilities.

Many, but not all, theorists prefer the second possibility. In this case, space (but not spacetime!) is flat (for the spatial metric obtained by projecting the spacetime metric onto S). John Wheeler has preferred the finite case for his whole career, while Roger Penrose prefers the hyperbolic case.
 
  • #22
>> How can any size be attributed to the Singularity? Given it represents all of existence, what else is it being measured against? Can it somehow be measured against itself internally?

A singularity's size can be referenced by the amount of energy it contains. One which represents all of existence can nonetheless be measured straight across with a yardstick if it is finite and euclidean. Things can be measured against themselves internally. Imagine an arbitrarily large bucket of pingpong balls, without the bucket. We can still count the mols of pingpong balls and define the "bucket" that way.

>> Is the Universe that expanded from the Singularity still a Singularity? The internal structure may have changed, but isn’t it still a single entity that represents all of existence?

It is still uncertain if our universe expanded from singularity at all, but if it did then it still is a singularity and we are trapped within it. Singularities certainly can expand, and that doesn't affect the part where a velocity higher than lightspeed is required to escape it.

>> Do we know the size of the Universe now (if so, how), and how do we know that it’s not infinite?

We know the size of the observable universe. Anything beyond that might as well be considered 'outside' the universe since it can never reach us, we can never reach it, and we can never affect each other. In that respect the universe is finite.

>> If we don’t know how big the Singularity was, or how big the Universe is, how do we know that the Universe expanded from the Singularity? Couldn’t it always have been the same size and it has just changed internally?

We don't know for sure, of course. It seems likely given the cosmic background radiation. Because the background radiation is somewhat smooth and uniform on average, coupled with the apparent expansion of the universe, it strongly implies that in the past the opposite trend dominated. Namely that the universe was small and hot and a tiny tiny point, which accounts for it expanding to look the same everywhere... everywhere was once the same place.

>> How does proving that the observable universe is expanding by observing cosmological redshift prove that the Universe per se is expanding? How do we know what’s happening in parts of the Universe we can’t observe? Couldn’t these parts just as easily be contracting?

We can never know anything about the unobservable universe. It might as well not exist. We can theorize about what might be on the 'outside' of our universe, but this would be akin to someone inside a black hole wondering about the outside. You can't get there to find out, and you can't interact with it.
 
  • #23
rkyeun said:
>> How can any size be attributed to the Singularity? Given it represents all of existence, what else is it being measured against? Can it somehow be measured against itself internally?

A singularity's size can be referenced by the amount of energy it contains. One which represents all of existence can nonetheless be measured straight across with a yardstick if it is finite and euclidean. Things can be measured against themselves internally. Imagine an arbitrarily large bucket of pingpong balls, without the bucket. We can still count the mols of pingpong balls and define the "bucket" that way.

It is still uncertain if our universe expanded from singularity at all, but if it did then it still is a singularity and we are trapped within it. Singularities certainly can expand, and that doesn't affect the part where a velocity higher than lightspeed is required to escape it.

We know the size of the observable universe. Anything beyond that might as well be considered 'outside' the universe since it can never reach us, we can never reach it, and we can never affect each other. In that respect the universe is finite.

We don't know for sure, of course. It seems likely given the cosmic background radiation. Because the background radiation is somewhat smooth and uniform on average, coupled with the apparent expansion of the universe, it strongly implies that in the past the opposite trend dominated. Namely that the universe was small and hot and a tiny tiny point, which accounts for it expanding to look the same everywhere... everywhere was once the same place.

We can never know anything about the unobservable universe. It might as well not exist. We can theorize about what might be on the 'outside' of our universe, but this would be akin to someone inside a black hole wondering about the outside. You can't get there to find out, and you can't interact with it.
Our modern, technologically enhanced view of the Universe has allowed us to disprove conclusions that our ancestors made with their limited human vision view. I have no doubt that future technological advances will similarly disprove our current conclusions.

I agree that we can never know about the universe we can’t observe, but I don’t agree that our current view is the limit of what is possible for us to view. Obviously if the universe is infinite, a complete view will never be possible. I don’t see any reason however, why an extension of our current view can’t be achieved by sending a chain of probes, that report back to us, into deep space. It may take a thousand generations to get the information back, but that’s a time issue, not an achievability issue.
 
  • #24
rkyeun said:
A singularity's size can be referenced by the amount of energy it contains. One which represents all of existence can nonetheless be measured straight across with a yardstick if it is finite and euclidean. Things can be measured against themselves internally. Imagine an arbitrarily large bucket of pingpong balls, without the bucket. We can still count the mols of pingpong balls and define the "bucket" that way.

>> Is the Universe that expanded from the Singularity still a Singularity? The internal structure may have changed, but isn’t it still a single entity that represents all of existence?

It is still uncertain if our universe expanded from singularity at all, but if it did then it still is a singularity and we are trapped within it. Singularities certainly can expand, and that doesn't affect the part where a velocity higher than lightspeed is required to escape it.

The notion of singularity is usually invoked when a theory results in infinite values. For example, when spacetime curvature in GR becomes infinite the outcome is called a singularity. The infinite curvature means infinite energy concentrated in a point-like (zero-sized) object. Then I believe we have to be very causious in measuring the size of a point-like object by using its infinite energy or when discussing the internal structure of a point-like object (does the internal structure of a point make sense at all?). Although terminology is a secondary thing, but the very word "singularity" has its precise meaning, referring to infinity. Since no sources of infinite energy are observed in nature, it would be better perhaps to use the word "blackhole" instead of "singularity" when speaking about the real (observed) physical objects that are compactified below their horizons (including the universe).
 
  • #25
how optical fibres work?
i know whith which material optical fibres are made white glase or plastic but are they made whith any thing else?
 
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  • #26
As far as predicting the size of the expansion of universe, most of the theorists consider the expansion as limited because of the assumption that something has to originate from something means "0 volume infinite density but considering m/0" but the question is whether there was something at the origination or not means there is a possibility of 0/0 singularity as well. 0/0 means something wasn't there with respect to nothing coz the concept of limiting or assumption of a finite universe is basically referring to a start from a limited substance or a substance which was already there.

check:
http://syedfaisal.wordpress.com/2007/11/02/origin-of-the-universe-and-00-singularity/
 

1. What is the Singularity in relation to the expanding universe?

The Singularity is a concept in astrophysics that refers to the state of the universe at the beginning of time, when it was infinitely hot, dense, and small. It is often associated with the Big Bang theory, which suggests that the universe began as a singularity and has been expanding ever since.

2. How does the expanding universe relate to the Big Bang theory?

The expanding universe is a key piece of evidence for the Big Bang theory. When scientists observe the movement of galaxies and the rate at which they are moving away from each other, they can extrapolate backwards to a time when the universe was much smaller and denser, supporting the idea of a singularity and an expanding universe.

3. What is the role of dark matter and dark energy in the expanding universe?

Dark matter and dark energy are two mysterious components that make up a large portion of the mass and energy in the universe. While their exact nature is still unknown, scientists believe that dark matter plays a crucial role in the formation and structure of galaxies, while dark energy is believed to be responsible for the accelerating expansion of the universe.

4. How will the expanding universe affect the future of our solar system?

The expansion of the universe will not have a direct impact on our solar system, as the force of gravity between the planets and the sun is strong enough to keep them in their current orbits. However, the expansion will continue to push galaxies further apart, eventually resulting in a universe where all stars and galaxies are too far apart to be seen from one another.

5. Is there a limit to how fast the universe can expand?

Currently, there is no known limit to the expansion rate of the universe. However, scientists believe that the expansion may eventually slow down or even reverse due to the effects of dark energy and the gravitational pull of matter. This is a topic of ongoing research and debate in the field of astrophysics.

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