'A Universe From Nothing' by Lawrence Krauss, AAI 2009

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In summary, Krauss is a world-class cosmologist who is saying that the universe is nearly flat. He uses the word "lies" in reference to his own statements, explaining that what he is saying is not mathematical, not quantitative, imprecise.

Is Lawrence Krauss right about the universe being flat?


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  • #36
Skolon said:
Thank you again, but I already knew that.

My question was about that: to measure the flatness of Universe the mean density of Universe if measured and it is compared with critical density. If I understood correct, this is how we can tell today that the Universe is "very close to flat".
Well, sort of. The way that this measurement is actually done, though, is by drawing triangles. Two measurements for this are the cosmic microwave background and baryon acoustic oscillation measurements.

The "triangle" drawn from the CMB is composed of the typical distance between the "acoustic peaks" which is set by the age of the universe at the time the CMB was emitted. Comparing this distance to the angle that we see and the distance to the CMB gives us our triangle.

The "triangle" drawn from BAO measurements comes from the fact that these measurements are measuring a typical distance between galaxies in the more nearby universe, a distance that is correlated to the same distance seen in the CMB. We can thus draw a different triangle as the typical separation between galaxies compared to the distance to those galaxies and their angular separation.

By contrast, other measurements of the contents of the universe that don't end up effectively drawing triangles, such as supernovae to measure the expansion rate as a function of time, don't measure the curvature at all.
 
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  • #37
Chalnoth said:
Er, well, no. A torus is not closed in that sense. It's flat.

Closed is a statement about curvature. Whether or not the universe wraps back on itself is a statement about topology. It is perfectly possible to have a flat universe with a topology that wraps back on itself. Just as it is, in principle, possible to have a closed universe that doesn't extend far enough to wrap back on itself.

Hi Chalnoth,
Please can I ask you to elaborate on this, as I am struggling to conceptualize it?
To me the property of being closed (angles of a triangle add up to more than 180) implies that the topology will wrap back on itself.
Can you give some examples of shapes where this is not the case - closed, but does not wrap back on itself?
Also, I seem to remember Krauss talking about flatness implying that it is infinite in spatial extent (or am I just misunderstanding him again?) - doesn't "infinite in spatial extent" rule out a topology that wraps back on itself?

Yes, I still don't quite have a handle on all this ;-)

Thanks :-)
 
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  • #38
Schlofster said:
Hi Chalnoth,
Please can I ask you to elaborate on this, as I am struggling to conceptualize it?
To me the property of being closed (angles of a triangle add up to more than 180) implies that the topology will wrap back on itself.
Well, there are a few different possibilities here:

1. What if the curvature changes before it wraps back on itself?
2. What if it spirals in or some such instead of neatly meeting itself?
3. What if it just ends before meeting itself?

I mean, sure, in the simplest case with absolutely constant curvature in all dimensions, we'd be talking about a sphere, which obviously wraps back on itself. But what if it isn't quite so simple?

Schlofster said:
Also, I seem to remember Krauss talking about flatness implying that it is infinite in spatial extent (or am I just misunderstanding him again?) - doesn't "infinite in spatial extent" rule out a topology that wraps back on itself?
I don't think he actually said that. If he did, he's wrong. But yes, if it so happened that our universe was infinite in spatial extent, then it clearly couldn't wrap back on itself.
 
  • #39
I should state that I've met Krauss on several occasions and listened to several of his lectures and colloquiums; I do research under one of his previous colleagues (This isn't to say at all, however, that he remembers me). Krauss is an interesting fellow, to say the least.
Schlofster said:
I think that I might be starting to see a pattern emerge - it seems to me that the intellectual abilities that scientists like Krauss are so far beyond what ordinary humans are capable of, he can't even articulate them at all in a way is intelligible by the majority of humans on this planet.

Ordinary humans would understandably respond with incredulity, and since they pay his salary, I suggest that people like him should only make statements that are logically intelligible ordinary people.
I think that public lectures like this just serve to polarize the voting public, against science.

I am rather interested though in what the evolutionary consequences of this cavernous gap between the intelligentsia and the rest of the human population would be.
Is it possible that we eventually see a divergence in the species - this may also be accelerated if people are selected for establishing a human colony on another planet like Mars.
Presumably the criteria for selecting the people for this mission would be heavily biased in favour of intellect.

You should send him an e-mail... He'd probably actually respond to you if you phrased it that way.
Schlofster said:
what I said is that most of the mass of protons and neutrons can be attributed to virtual particles.. it is that mass that we can calculate using the theory of the strong interaction and powerful computers..

_______________________________
Lawrence M. Krauss
Foundation Professor
Director, Origins Initiative
Co-Director, Cosmology Initiative
ARIZONA STATE UNIVERSITY
College of Liberal Arts and Sciences
School of Earth and Space Exploration
http://krauss.faculty.asu.edu

On Nov 3, 2009, at 5:04 PM, Jessica Lee wrote: ------ Forwarded Message
Date: Wed, 28 Oct 2009 06:48:23 -0700
Subject: A Question For Prof Krauss. Hi Jessica,
Please could I ask you to send this question on to Prof. Krauss?

Hi Prof Krauss,
I loved your recent public lecture <http://www.youtube.com/watch?v=7ImvlS8PLIo> at AAI 2009, but I don't understand something,

and I was hoping that you might be able to spare a few moments to clear it up for me.

First of all let me state that I am no physicist, so I am rather certain that my
misunderstanding is due to an incomplete grasp of the mathematical model that you
attempt to describe in natural language. I do understand that it is actually impossible to
do this since the mathematical model cannot be expressed in natural language.

In the lecture you say that you have calculated the mass of the universe, and have calculated that
most of the mass in the universe is as a result of virtual particles "popping in and out of existence" in empty space,
while matter particles constitute a very small fraction of the mass of the universe.
Considering this, and since you are able to calculate the mass of the universe to be a finite quantity,
it seems to me that a conclusion that the universe is infinite in spatial extent would be logically incompatible with a universe of finite mass.
I say this because if empty space itself constitutes most of the mass of the universe, then if the amount of empty space is infinite,
then the mass of the universe must also be infinite.

Thanks very much & kind regards, ------ End of Forwarded Message

Tell me how this goes. I'm interested to see what he replies with.
By-the-by, he's neither wrong nor right. We don't know if the universe's curvature is zero or not. We know that, right now, however, it is very small and close to zero (and possibly negative, if memory serves).
 
  • #40
Skolon said:
Yes, maybe a torus is mathematically flat shape but is a strange kind: a torus shape Universe is closed (going on any direction you will finally arrive at the same point) but for each direction other "diameter" of Universe exist. So, it seems like each direction have its own properties.
In our Universe all directions seem to have the same properties, at least until now. Or I don't know well?

Yes, this model is closed, and is different in different directions (anisotropic).
Chalnoth said:
Er, well, no. A torus is not closed in that sense. It's flat.

Closed is a statement about curvature. Whether or not the universe wraps back on itself is a statement about topology.

I don't think so. "Closed" is a statement about topology, not about curvature. A universe is closed iff its spatial sections are topologically compact. I think that this usage is standard. I can't think of how to use (the) curvature (tensor) to distinguish between "closed" and "open."
Chalnoth said:
Just as it is, in principle, possible to have a closed universe that doesn't extend far enough to wrap back on itself.

I'm not sure what this means.
Chalnoth said:
But in any case, it's still perfectly possible that the circumference in each direction is identical.

But this model is still anisotropic. Along the axes of symmetry, there are geodesics that close, but there also are geodesics "between" these axes that wind around the torus, never closing.

A flat three-dimensional torus is a model for a closed, homogeneous, anisotropic universe. The only flat universe that obeys the Cosmological Principle is one for which space is R3.
 
  • #41
George Jones said:
Yes, this model is closed, and is different in different directions (anisotropic).
Well, that doesn't have any meaning in observational cosmology, as when we refer to "closed" we exclusively refer to the curvature, not to the topology (which is unobservable). Well, I mean, a topologically closed universe could, in principle, be observed. But the fact that it hasn't so far seems to indicate that if our universe is topologically closed, then we won't ever be able to tell (because the distance is just too great, by current observational limits).

George Jones said:
But this model is still anisotropic. Along the axes of symmetry, there are geodesics that close, but there also are geodesics "between" these axes that wind around the torus, never closing.
In what sense? Given that a torus is finite, any geodesic must necessarily come back to itself eventually. Some will take longer than others, of course, but it must eventually occur.

George Jones said:
A flat three-dimensional torus is a model for a closed, homogeneous, anisotropic universe. The only flat universe that obeys the Cosmological Principle is one for which space is R3.
In the sense that the word "flat" is used in observational cosmology, a torus is quite flat. But I thought you said it wasn't anisotropic? Of course, it is anisotropic in the sense that not all geodesics that wrap around a torus come back after the same distance is crossed (like a sphere). But it is very much flat in terms of curvature.
 
  • #42
Chalnoth said:
Well, that doesn't have any meaning in observational cosmology, as when we refer to "closed" we exclusively refer to the curvature, not to the topology (which is unobservable).

If "closed" is defined using curvature, and is not equivalent to topological compactness, I guess I need a precise, mathematical definition of "closed" in terms of curvature, and at least one of:

a space that is closed in terms of the precise, mathematical curvature definition, but that is not compact;

a space that is compact, but that is not closed in terms of the precise, mathematical curvature definition.
Chalnoth said:
In what sense? Given that a torus is finite, any geodesic must necessarily come back to itself eventually. Some will take longer than others, of course, but it must eventually occur.

Here's what I had in mind. For simplicity, consider only two spatial dimensions. The flat torus is constructed by putting an equivalence relation on the 2-dimensional plane, with (x, y) ~ (x + n , x + m) for all integers n and m. Now consider the geodesic y = pi*x in the plane, which goes the point (0, 0). The only way that this geodesic can close in the torus is if the line goes through a point in the plane that is equivalent to the point (0, 0), i.e., if the line goes through a point (n, m) for some integers n and m. But a line that goes through (0, 0) and (n, m) has a slope that is a rational number, which can't be equal to the slope pi of the original line.

Consequently, this geodesic in the flat torus induced by the geodesic y = pi*x in the plane doesn't close in the torus.
Chalnoth said:
In the sense that the word "flat" is used in observational cosmology, a torus is quite flat.

I agree, and I didn't write anything that contradicted this.
Chalnoth said:
But I thought you said it wasn't anisotropic?

I didn't writes this, and I didn't mean to give the impression that I believed this. Quite the opposite; in the first sentence of my previous post, I explicitly stated that the flat torus is anisotropic.
Chalnoth said:
Of course, it is anisotropic in the sense that not all geodesics that wrap around a torus come back after the same distance is crossed (like a sphere).
Chalnoth said:
But it is very much flat in terms of curvature.

Yes.
 
  • #43
George Jones said:
If "closed" is defined using curvature, and is not equivalent to topological compactness, I guess I need a precise, mathematical definition of "closed" in terms of curvature, and at least one of:
From the parameter k in the FLRW metric:

k < 0: open
k = 0: flat
k > 0: closed

This is the terminology usually used in observational cosmology. Clearly these terms were inspired by topology, but bear no direct relationship.
 
  • #44
Schlofster said:
time index: 19:35
what could contribute a term like this, and we know the answer - nothing - by "nothing", I don't mean nothing, I mean nothing.
If you take empty space, and that means get rid of all the particles, all the radiation, absolutely everything,
so there is nothing there, if that nothing weighs something, then it contributes a term like this.
Schlofster said:
time index: 21:20
It turns out, most of the mass of the proton comes not from the quarks within the proton, but from the empty space between the quarks.
these fields produce about 90% of the mass of the proton, and since protons and neutrons are the dominant stuff in your body,
empty space is responsible for 90% of your mass.

I am sorry to bring this up again, but I have just understood why I drew the conclusions I did from what he says here.
The only way that I can see these two statements being logically compatible is if the space between the quarks within a proton is no different from the empty space between protons.
If the virtual particles 'popping' in and out of existence are a property of empty space whether that space is within a proton or not.
Is this incorrect, or is there another way to understand it that is still allows the two statements above to be logically compatible?

Thanks
 
  • #45
Schlofster said:
I am sorry to bring this up again, but I have just understood why I drew the conclusions I did from what he says here.
The only way that I can see these two statements being logically compatible is if the space between the quarks within a proton is no different from the empty space between protons.
If the virtual particles 'popping' in and out of existence are a property of empty space whether that space is within a proton or not.
Is this incorrect, or is there another way to understand it that is still allows the two statements above to be logically compatible?

Thanks
Yes, that's basically right. The only difference with the empty space within a proton is that you've got these strong nuclear forces between the quarks that cause additional excitations of the vacuum.
 
  • #46
Thanks, does that then mean that if we were ever able to verify that the universe has a finite mass, it would imply that the universe must be finite in spatial extent, and therefore not perfectly flat?
Conversely if we were able to verify that the universe is flat on the largest scales, would it imply that the universe's mass is infinite?
Does Prof. Krauss' claim that the universe is flat refute Hawking's 4d closed manifold hypothesis?
 
  • #47
This is about the Ex Nihilo right? I too believe in this and will post why when I come back from lectures.
 
  • #48
1)
Chalnoth said:
Yes, that's basically right. The only difference with the empty space within a proton is that you've got these strong nuclear forces between the quarks that cause additional excitations of the vacuum.

2)
time index: 21:20
"It turns out, most of the mass of the proton comes not from the quarks within the proton, but from the empty space between the quarks.
these fields produce about 90% of the mass of the proton, and since protons and neutrons are the dominant stuff in your body,
empty space is responsible for 90% of your mass."

3)
time index: 25:00
"The universe can be one of three different geometries: open, closed or flat"

4)
time index: 25:30
"And an open universe would be infinite in spatial extent as would a flat universe"

5)
time index: 29:25
"we know how many protons and neutrons there are in the universe, we can actually measure that"

Please show me where I am going wrong:

a) (1) AND (2) AND (4) implies that a flat or an open universe would have an infinite mass.

b) (a) AND (3) AND (5) implies that our universe can't be open or flat - it must be closed.

but (b) can't be true because evryone here including Prof Krauss says that we have observationally shown that the universe is so close to perfectly flat, that it may as well be.

this is the exact reason why I can't reconcile the logic, please can someone show me where I am going wrong?
 
  • #49
Well, I think in point (5) he's actually not talking about everything, just the observable universe. So the problem here is that we're talking about two different uses of the word 'universe'.
 
  • #50
He also says in this lecture:

"What’s so beautiful about a universe with total energy: zero? Well, only such a universe can begin from nothing. And that is remarkable because the laws of physics allow a universe to begin from nothing. You don’t need a deity. You have nothing, zero total energy, and quantum fluctuations can produce a universe."

Wouldn't that universe have to disapear in under a second?
 
  • #51
Here's my amateur's take on the implications of a flat universe, having just watched Krauss' lecture and read these comments and done some of my own thinking. Please, let me know whether I'm making sense. In a flat universe, it's possible for there to be infinite mass and infinite space if the universe is expanding, because due to relativity, all the mass that is far enough away would be moving away from us faster than the speed of light and all of that mass would not be observable or have any affect on us in any way. It would be as if that mass doesn't exist for us. That leaves only a finite amount of mass that is not moving away from us faster than the speed of light, which is our observable universe, which is finite in both mass and spatial extent. So it's possible that the 'actual' universe is infinite in space and mass while our observable universe is finite in both ways.

Another thing I was thinking about is Krauss' picture of the future of the universe, when galaxies get so far apart that all galaxies are moving away from each other faster than the speed of light, and so as far as any observer could then tell, only the galaxy that is around the observer exists. Now consider the empty space between the galaxies. In that space, if all galaxies are moving away from the empty space faster than the speed of light, it would be as if there was absolutely nothing in the universe at all from the 'point of view' of that empty space. Now, isn't that the same situation that we were at at the beginning of the universe? So if the conditions are the same, shouldn't the outcome be the same? Shouldn't we expect quantum fluctuations to create universes from nothing? So what we end up with as a picture of our universe is an ever expanding universe in which matter keeps spreading out more and more, but in which more galaxies keep popping up within the empty spaces, albeit perhaps only when they are so far away that we can't notice them.
 
  • #52
shoejunk said:
Here's my amateur's take on the implications of a flat universe, having just watched Krauss' lecture and read these comments and done some of my own thinking. Please, let me know whether I'm making sense. In a flat universe, it's possible for there to be infinite mass and infinite space if the universe is expanding, because due to relativity, all the mass that is far enough away would be moving away from us faster than the speed of light and all of that mass would not be observable or have any affect on us in any way. It would be as if that mass doesn't exist for us.
Well, you actually get the same answer in Newtonian gravity in this case. It's due to the [itex]1/r^2[/itex] falloff of gravity: stuff further away contributes less to the force, so that if you add up all the mass extending to infinity, the result is a finite effect.

Unfortunately, the speed of light limitation isn't so simple in General Relativity: most of the galaxies we see today have always been moving away faster than the speed of light, by the most obvious definition of speed (speeds of distant objects are actually arbitrary: there is no one choice of how to define it).

shoejunk said:
Another thing I was thinking about is Krauss' picture of the future of the universe, when galaxies get so far apart that all galaxies are moving away from each other faster than the speed of light, and so as far as any observer could then tell, only the galaxy that is around the observer exists. Now consider the empty space between the galaxies. In that space, if all galaxies are moving away from the empty space faster than the speed of light, it would be as if there was absolutely nothing in the universe at all from the 'point of view' of that empty space. Now, isn't that the same situation that we were at at the beginning of the universe? So if the conditions are the same, shouldn't the outcome be the same? Shouldn't we expect quantum fluctuations to create universes from nothing? So what we end up with as a picture of our universe is an ever expanding universe in which matter keeps spreading out more and more, but in which more galaxies keep popping up within the empty spaces, albeit perhaps only when they are so far away that we can't notice them.
Well, this view of galaxies popping out of the expanding space was actually championed a while ago as an alternative to the big bang theory, termed the steady state universe. The observation of the CMB, though, basically cemented that it's the big bang, not the steady state.

If there are "other universes" being produced out of vacuum fluctuations within our own universe, those universes would appear to us as microscopic black holes that fluctuate out of the vacuum, then rapidly decay again via Hawking radiation. They might extend in their own space-time off into infinity, but are only connected to us via a tiny blip that looks like a microscopic black hole. Forever after, they are disconnected and cannot interact with our universe in any way.
 
  • #53
Schlofster said:
I started this https://www.physicsforums.com/showthread.php?t=313501" a while ago talking about Stephen Hawking's "No Boundary Condition".

I think that I finally got a handle on it, but now Lawrence Krauss has discussed http://www.youtube.com/watch?v=7ImvlS8PLIo" why he thinks that the universe is not closed, but flat, and he says by implication, 'infinite in spatial extent'.
(he also claims to have empirical evidence of the flatness of space-time on the largest scales)

I don't understand how he can reconcile this with the big bang (which he also seems to accept).
If the universe is infinite in spatial extent, at what point did it become infinite, because when the universe was 1 second old, it was not infinitely large (I think that this is the scientifically accepted view).
He is obviously a widely respected physicist, and I am not a physicist, so I expect that I just don't understand what he is saying.

Could anyone explain it to me, or can it not be expressed in natural language?

Thanks,
Schlofster

In the metaphore of the universe being a flat sheet of rubber (the 2D analpgue of the 3D universe) that expands uniformly in all directions, it is true that (in the mathematical sense, not in the physical sense) all space we can observe now can be brought back to a single 0D spot, but that does not claim to say that all of space was just that single 0D dot.

It seems that too many people make this same implication, which is just an assumption, but doesn't need to be right. It would (IMHO) make more sense to assume that space near the Big bang was already infinite, and thus is still infinite.

This certainly makes sense in the context of the inflationary scenario, in which in other parts of the universe, inflation keeps gong on, creating ever more expanding universe bubbles.
 
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  • #54
Universe can be flat or not

But there are not only one universe , there are total 14 universes.

Out of 14 universes some universes can be flat and some can't

I think universe cannot be defined as it is flat or not, Actually it is out of the boundry of the word " flat "
 
  • #55
I still do not see enough evidence to prove any of these theories to be, or even close to being scientific law. Essentially, the idea is that all matter came from nothing, which then leads to the idea that life evolved from death. All of these concepts have not been proven by science and are at this point a belief. So these systems of beliefs, you could say is a religion. But, examining all of the evidence, does it not seem as if all of this creation was most likely caused or willed into existence by an outside consciousness. And obviously that consciousness would then be far more superior to ours if that be the case. The question I pose is why do we seek answers to all of these questions? Is it just out of curiosity? And what does this have to do with what we are doing or need to do here on Earth? Are we simply trying to find outside solutions to our problems here, rather than looking at ourselves and being humble and honest? Just some thoughts that I've been pondering.
 
  • #56
mikeyj4 said:
I still do not see enough evidence to prove any of these theories to be, or even close to being scientific law. Essentially, the idea is that all matter came from nothing, which then leads to the idea that life evolved from death.
These statements of yours are beyond ridiculous.

First, the birth of the universe has nothing whatsoever to do with the beginnings of life on Earth. The two are entirely different concepts, studied in entirely different branches of science. They have basically nothing to do with one another, and almost no information is or needs to be shared between those fields.

mikeyj4 said:
All of these concepts have not been proven by science and are at this point a belief.
You haven't been paying any attention whatsoever to the discussion, and have simply imposed your own blinkered views upon it. This isn't at all how science is done.

In this particular case, if you actually talk to scientists, they will say, "We don't know exactly, because the evidence is so far insufficient, but here's how it could have happened..."

Nowhere in there is a statement of belief. It's a statement of possibility. It's a statement that demands investigation. It relies upon current, tested knowledge, and speculates what may lie beyond.

And the fact of the matter is that current, tested knowledge suggests that it is very much possible for a universe to come from nothing, despite your dogmatic, religious insistence that it can't. "I don't believe it!" is not an argument. It's a statement of blind, evidence-free belief. Which you seem to not be so proud of.

mikeyj4 said:
So these systems of beliefs, you could say is a religion. But, examining all of the evidence, does it not seem as if all of this creation was most likely caused or willed into existence by an outside consciousness.
No. Not even remotely. There is nothing whatsoever in any piece of science that even hints at the possibility. Science has, instead, been pointing in entirely the opposite direction, continually upsetting our notions that the universe has some sort of direction or purpose. The overwhelming conclusion of science is that there is no direction or purpose to the universe, that the only direction or purpose that exist are the direction and purpose that we and other intelligent, evolved beings make for ourselves.
 
  • #57
From my understanding we have indirect evidence of virtual particles. No one is debating whether they exist or not. What is speculative however is this notion that virtual particles could become Universes.

Assuming that Krauss is correct that our Universe was a virtual particle with the right conditions that underwent expansion and became a Universe, there is something I am confused about, which I'm hoping someone can address.

Krauss says that empty space or a vacuum in space at extremely small scales is not truly empty or "nothing". Instead there lies a brewing sea of energy where virtual particles pop in and out of existence in a fraction of a second. This suggests that this sea of energy is a feature of our Universe. It is not a separate entity. Now, it is my understanding that Krauss is claiming that our Universe spawned from this sea of energy, which suggests to me that one independent entity (our Universe) came from a separate entity (sea of energy). So does this mean that there are two entities? One which is a feature of our Universe and the other a realm of existence outside of our Universe where it came from?

In other words, how does the Universe "come from" a place that is part of it?
 
  • #58
revo74 said:
In other words, how does the Universe "come from" a place that is part of it?
Well, this picture is one where our region of space-time was birthed from some other region of space-time, and that if you want to take the collection of all regions of space-time, that collection is eternal.

But in a very real sense, if you look into the far future of our own region of space-time, the most likely future is one where essentially nothing exists. All of the radiation will be redshifted away. All of the matter will have fallen into black holes or decayed, and all of those black holes will have then decayed. From this vast emptiness, however, new universes may be born.

That is the current best picture of a "universe from nothing". Yes, it isn't literally nothing. But nobody knows how to describe that mathematically anyway.
 
  • #59
Chalnoth said:
Well, this picture is one where our region of space-time was birthed from some other region of space-time, and that if you want to take the collection of all regions of space-time, that collection is eternal.

But in a very real sense, if you look into the far future of our own region of space-time, the most likely future is one where essentially nothing exists. All of the radiation will be redshifted away. All of the matter will have fallen into black holes or decayed, and all of those black holes will have then decayed. From this vast emptiness, however, new universes may be born.

That is the current best picture of a "universe from nothing". Yes, it isn't literally nothing. But nobody knows how to describe that mathematically anyway.

Thanks for the response.

I have another question then.

Is this "region" of space-time which our Universe spawned from some special place that gives birth to universes. A universe generator if you will or is it is another universe like ours? In addition, what would happen if a virtual particle in our own universe had the right conditions to become a new universe? Would it separate from our space-time continuum or expand within it? If the later I would have to image this would cause extreme catastrophe.
 
  • #60
revo74 said:
Thanks for the response.

I have another question then.

Is this "region" of space-time which our Universe spawned from some special place that gives birth to universes.
No, not at all! It's just what we expect to happen everywhere from time to time.

revo74 said:
In addition, what would happen if a virtual particle in our own universe had the right conditions to become a new universe? Would it separate from our space-time continuum or expand within it? If the later I would have to image this would cause extreme catastrophe.
Well, from our perspective, it looks like a microscopic black hole that almost instantly evaporates. But inside this microscopic black hole, the space-time becomes sort of twisted enough that a piece of it pinches off and expands on its own, independent of our universe.
 
  • #61
Chalnoth said:
No, not at all! It's just what we expect to happen everywhere from time to time.

So universes give rise to other universes. Do the laws of physics remain the same. Are these new universes essentially clones?

Well, from our perspective, it looks like a microscopic black hole that almost instantly evaporates. But inside this microscopic black hole, the space-time becomes sort of twisted enough that a piece of it pinches off and expands on its own, independent of our universe.

Would this be common sense speculation? After all the entire idea that our Universe is a special virtual particle is highly speculative to begin with.

What evidence or reasoning is there that supports this concept?
 
  • #62
revo74 said:
What evidence or reasoning is there that supports this concept?

None other than some math as far as I know. Similar to other different multiverse ideas.
 
  • #63
revo74 said:
So universes give rise to other universes. Do the laws of physics remain the same. Are these new universes essentially clones?
Right now we don't have enough evidence to say for sure, but the general expectation is that the laws can be quite different every time.

revo74 said:
Would this be common sense speculation? After all the entire idea that our Universe is a special virtual particle is highly speculative to begin with.

What evidence or reasoning is there that supports this concept?
In general this sort of idea is very much at the frontier of knowledge. The models we have today seem to suggest that this kind of thing is possible, but it's very difficult to say what actually happens in this regime. So for the most part, this should be filed under, "Possible idea. Needs work."
 
  • #64
The universe can be flat and still be finite and unbounded.
 
<h2>1. What is the main concept of 'A Universe From Nothing'?</h2><p>The main concept of 'A Universe From Nothing' is the idea that the universe could have originated from nothing, without the need for a divine creator or external force. This theory is based on the principles of quantum mechanics, which suggest that particles can spontaneously appear from nothing and that the total energy of the universe could be zero.</p><h2>2. Who is Lawrence Krauss and why is he important to this topic?</h2><p>Lawrence Krauss is a theoretical physicist and cosmologist who is best known for his work on the origin and evolution of the universe. He is important to the topic of 'A Universe From Nothing' because he is one of the leading proponents of the theory that the universe could have emerged from nothing.</p><h2>3. How does this theory challenge traditional religious beliefs?</h2><p>This theory challenges traditional religious beliefs by suggesting that the universe does not need a divine creator or external force to explain its existence. This goes against the belief in a God or higher power as the ultimate creator of the universe.</p><h2>4. What evidence supports the idea of a universe from nothing?</h2><p>One piece of evidence that supports the idea of a universe from nothing is the observation of the expansion of the universe, which suggests that the universe had a beginning. Another is the discovery of the Higgs boson, which helps to explain the mechanism by which particles can spontaneously appear from nothing.</p><h2>5. What are some criticisms of this theory?</h2><p>Some criticisms of this theory include the fact that it is still a theoretical concept and has not yet been proven through empirical evidence. Additionally, some argue that the idea of 'nothing' in this context is not truly nothing, but rather a vacuum state with certain properties. Others also argue that the existence of the laws of physics and the fine-tuning of the universe suggest the need for a creator or designer.</p>

1. What is the main concept of 'A Universe From Nothing'?

The main concept of 'A Universe From Nothing' is the idea that the universe could have originated from nothing, without the need for a divine creator or external force. This theory is based on the principles of quantum mechanics, which suggest that particles can spontaneously appear from nothing and that the total energy of the universe could be zero.

2. Who is Lawrence Krauss and why is he important to this topic?

Lawrence Krauss is a theoretical physicist and cosmologist who is best known for his work on the origin and evolution of the universe. He is important to the topic of 'A Universe From Nothing' because he is one of the leading proponents of the theory that the universe could have emerged from nothing.

3. How does this theory challenge traditional religious beliefs?

This theory challenges traditional religious beliefs by suggesting that the universe does not need a divine creator or external force to explain its existence. This goes against the belief in a God or higher power as the ultimate creator of the universe.

4. What evidence supports the idea of a universe from nothing?

One piece of evidence that supports the idea of a universe from nothing is the observation of the expansion of the universe, which suggests that the universe had a beginning. Another is the discovery of the Higgs boson, which helps to explain the mechanism by which particles can spontaneously appear from nothing.

5. What are some criticisms of this theory?

Some criticisms of this theory include the fact that it is still a theoretical concept and has not yet been proven through empirical evidence. Additionally, some argue that the idea of 'nothing' in this context is not truly nothing, but rather a vacuum state with certain properties. Others also argue that the existence of the laws of physics and the fine-tuning of the universe suggest the need for a creator or designer.

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