Where is the center of the universe?

In summary, there is a debate about whether there is a center or someplace close to the center of the universe. Some argue that the actual universe can be contained in a physically describable bounding box with a center, while others believe that everything emanated from a center, also known as the singularity. The position of this singularity is considered to be a fact, even though it may be unknowable. The existence of a center is supported by the fact that prior to the discovery of the universe's acceleration, scientists believed it would collapse back into a singularity. However, it is argued that the logic of the everyday physical universe may not be applicable in this realm. Additionally, the concept of a finite universe with a boundary is not
  • #71
Fuzzy Logic said:
You might as well say that the cosmos revolve around the earth. That kind of perspective amounts to the very same thing. It could well be true but without proof in either favor, it is speculation and only serves to hinder progress. Nobody will ever find a way to prove it if we refuse to consider the possibilities.

Existing models are useful for practical applications but contemplating what is beyond our knowledge domain is paramount to discovery.

We have overwhelming evidence of at least a single universe and zero evidence of more than a single universe. I think in this case we should stick to a single universe model until something tells us otherwise.
 
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  • #72
Drakkith said:
We have overwhelming evidence of at least a single universe and zero evidence of more than a single universe. I think in this case we should stick to a single universe model until something tells us otherwise.
A single universe requires more assumptions than a plethora of universes does.
 
  • #73
Chalnoth said:
I've always found that response to anthropic arguments to be rather pathetic.

Strength/weakness of Steinhardt's statement could be somewhat in the eye of the beholder. He led the charge, and was supported to some extent by David Gross and his Princeton colleague Edward Witten. I think Steinhardt's response was to large extent effective. Multiverse papers were excluded from the "Strings 2008" conference at CERN and have made little or no showing at subsequent Strings XXXX. I give Steinhardt much of the credit for speaking out early on this issue. People should judge the cogency of his argument for themselves.

The question Edge asked in 2005 was "WHAT DO YOU BELIEVE IS TRUE EVEN THOUGH YOU CANNOT PROVE IT?"

==quote Edge 2005 annual question==

Paul Steinhardt
Albert Einstein Professor of Physics, Princeton University.

I believe that our universe is not accidental, but I cannot prove it.

Historically, most physicists have shared this point-of-view. For centuries, most of us have believed that the universe is governed by a simple set of physical laws that are the same everywhere and that these laws derive from a simple unified theory.

However, in the last few years, an increasing number of my most respected colleagues have become enamored with the anthropic principle—the idea that there is an enormous multiplicity of universes with widely different physical properties and the properties of our particular observable universe arise from pure accident. The only special feature of our universe is that its properties are compatible with the evolution of intelligent life. The change in attitude is motivated, in part, by the failure to date to find a unified theory that predicts our universe as the unique possibility. According to some recent calculations, the current best hope for a unified theory—superstring theory—allows an exponentially large number of different universes, most of which look nothing like our own. String theorists have turned to the anthropic principle for salvation.

Frankly, I view this as an act of desperation. I don't have much patience for the anthropic principle. I think the concept is, at heart, non-scientific. A proper scientific theory is based on testable assumptions and is judged by its predictive power. The anthropic principle makes an enormous number of assumptions—regarding the existence of multiple universes, a random creation process, probability distributions that determine the likelihood of different features, etc.—none of which are testable because they entail hypothetical regions of spacetime that are forever beyond the reach of observation. As for predictions, there are very few, if any. In the case of string theory, the principle is invoked only to explain known observations, not to predict new ones. (In other versions of the anthropic principle where predictions are made, the predictions have proven to be wrong. Some physicists cite the recent evidence for a cosmological constant as having anticipated by anthropic argument; however, the observed value does not agree with the anthropically predicted value.)

I find the desperation especially unwarranted since I see no evidence that our universe arose by a random process. Quite the contrary, recent observations and experiments suggest that our universe is extremely simple. The distribution of matter and energy is remarkably uniform. The hierarchy of complex structures ranging from galaxy clusters to subnuclear particles can all be described in terms of a few dozen elementary constituents and less than a handful of forces, all related by simple symmetries. A simple universe demands a simple explanation. Why do we need to postulate an infinite number of universes with all sorts of different properties just to explain our one?

Of course, my colleagues and I are anxious for further reductionism. But I view the current failure of string theory to find a unique universe simply as a sign that our understanding of string theory is still immature (or perhaps that string theory is wrong). Decades from now, I hope that physicists will be pursuing once again their dreams of a truly scientific "final theory" and will look back at the current anthropic craze as millennial madness.

==endquote==
http://edge.org/response-detail/805/what-do-you-believe-is-true-even-though-you-cannot-prove-it
 
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  • #74
marcus said:
Strength/weakness of Steinhardt's statement could be somewhat in the eye of the beholder. He led the charge, and was supported to some extent by David Gross and his Princeton colleague Edward Witten. I think Steinhardt's response was to large extent effective. Multiverse papers were excluded from the "Strings 2008" conference at CERN and have made little or no showing at subsequent Strings XXXX. I give Steinhardt much of the credit for speaking out early on this issue. People should judge the cogency of his argument for themselves.

The question Edge asked in 2005 was "WHAT DO YOU BELIEVE IS TRUE EVEN THOUGH YOU CANNOT PROVE IT?"

==quote Edge 2005 annual question==

Paul Steinhardt
Albert Einstein Professor of Physics, Princeton University.

I believe that our universe is not accidental, but I cannot prove it.

Historically, most physicists have shared this point-of-view. For centuries, most of us have believed that the universe is governed by a simple set of physical laws that are the same everywhere and that these laws derive from a simple unified theory.

However, in the last few years, an increasing number of my most respected colleagues have become enamored with the anthropic principle—the idea that there is an enormous multiplicity of universes with widely different physical properties and the properties of our particular observable universe arise from pure accident. The only special feature of our universe is that its properties are compatible with the evolution of intelligent life. The change in attitude is motivated, in part, by the failure to date to find a unified theory that predicts our universe as the unique possibility. According to some recent calculations, the current best hope for a unified theory—superstring theory—allows an exponentially large number of different universes, most of which look nothing like our own. String theorists have turned to the anthropic principle for salvation.

Frankly, I view this as an act of desperation. I don't have much patience for the anthropic principle. I think the concept is, at heart, non-scientific. A proper scientific theory is based on testable assumptions and is judged by its predictive power. The anthropic principle makes an enormous number of assumptions—regarding the existence of multiple universes, a random creation process, probability distributions that determine the likelihood of different features, etc.—none of which are testable because they entail hypothetical regions of spacetime that are forever beyond the reach of observation. As for predictions, there are very few, if any. In the case of string theory, the principle is invoked only to explain known observations, not to predict new ones. (In other versions of the anthropic principle where predictions are made, the predictions have proven to be wrong. Some physicists cite the recent evidence for a cosmological constant as having anticipated by anthropic argument; however, the observed value does not agree with the anthropically predicted value.)

I find the desperation especially unwarranted since I see no evidence that our universe arose by a random process. Quite the contrary, recent observations and experiments suggest that our universe is extremely simple. The distribution of matter and energy is remarkably uniform. The hierarchy of complex structures ranging from galaxy clusters to subnuclear particles can all be described in terms of a few dozen elementary constituents and less than a handful of forces, all related by simple symmetries. A simple universe demands a simple explanation. Why do we need to postulate an infinite number of universes with all sorts of different properties just to explain our one?

Of course, my colleagues and I are anxious for further reductionism. But I view the current failure of string theory to find a unique universe simply as a sign that our understanding of string theory is still immature (or perhaps that string theory is wrong). Decades from now, I hope that physicists will be pursuing once again their dreams of a truly scientific "final theory" and will look back at the current anthropic craze as millennial madness.

==endquote==
http://edge.org/response-detail/805/what-do-you-believe-is-true-even-though-you-cannot-prove-it
Why did you post this again?
 
  • #75
Cosmo Novice said:
Just to reinforce some previous comments.

The entire Universe has no center, for it to have a center would also preclude a leading edge. This would violate the Cosmological principle and also undermine relativity by applying different and preferential reference frames.

The BB was not a ballistic explosion in a pre-existing space and is entirely background independant.

To try to assume external vantage points "outside" the Universe is pointless and does not provide any helpful understanding IMO.

Now there are edges to the Universe, but these are not spatial; they are temporal. When I stand and look up into the sky I am on the temporal edge of the Universe.

I hope this helps and am happy to discuss this further as sometimes it can help for a layperson to explain this. (My head still hurts if I think about it too much.)

Cosmo



http://www.youtube.com/watch?v=VOz4PkdY7aA&feature=related


Videos like these and many more show animations of the big bang, they show it as an observer somewhere outside of the universe. They put these on all the science channels as well, why would they put false information like this in the public and give them faulty ideas of the big bang if it is not true. From what you stated this animation cannot be valid because there is no edge or outside of the universe, correct?
 
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  • #76
Flustered said:
Videos like these and many more show animations of the big bang, they show it as an observer somewhere outside of the universe. They put these on all the science channels as well, why would they put false information like this in the public and give them faulty ideas of the big bang if it is not true. From what you stated this animation cannot be valid because there is no edge or outside of the universe, correct?
Well, if you can figure out how to visualize the expansion without that, be my guest.
 
  • #77
Chalnoth said:
Well, if you can figure out how to visualize the expansion without that, be my guest.

That's my point, one cannot visualize the big bang without looking at it from outside of the universe. So that is why I can't believe that this universe is everything. The beginning of time and space. Plus there is no proof that the BB was the beginning of time and space. So why is it so widely accepted?
 
  • #78
Flustered said:
That's my point, one cannot visualize the big bang without looking at it from outside of the universe. So that is why I can't believe that this universe is everything. The beginning of time and space. Plus there is no proof that the BB was the beginning of time and space. So why is it so widely accepted?

Partly because we acknowledge that the universe is not obliged to behave well for us humans to visualize.

The visualization is in the math. Anything that is not described via math is necessarily flawed (that's the nature of models and metaphors).
 
  • #79
DaveC426913 said:
Partly because we acknowledge that the universe is not obliged to behave well for us humans to visualize.

The visualization is in the math. Anything that is not described via math is necessarily flawed (that's the nature of models and metaphors).

If there is a multiverse, and universes were indeed like bubbles floating around running into one another. Would the universe than have an edge?
 
  • #80
Flustered said:
If there is a multiverse, and universes were indeed like bubbles floating around running into one another. Would the universe than have an edge?

"Would would it be like - if things were like what I said they were like?"
 
  • #81
The point I was trying to get to is, if there indeed is more universes out there. A multiverse would be in effect, and the following is true.

The universe has and edge.
The universe is expanding into a larger space.
Our universe is not infinite.
Therefor there is a center to our universe.
Weather math can show us where or not.
 
  • #82
Probably the best counter to Steinhardt's argument is that a lot of effort and science has gone into argung our position in the universe is not special, so why should it follow that the universe as a whole is special.

I agree, however, that pushing multiverses when you can't prove it shouldn't be soaking up science-time.

An above poster said there was no value in discussing vantage points from outside the universe. That's a prediction about the future. Until the conversation has taken place, we have no idea what value it might have. Every avenue should be explored.
 
  • #83
Flustered said:
The point I was trying to get to is, if there indeed is more universes out there. A multiverse would be in effect, and the following is true.

The universe has and edge.
The universe is expanding into a larger space.
Our universe is not infinite.
Therefor there is a center to our universe.
Weather math can show us where or not.

You are mincing up terminologies. If multiverses exist, then the universe becomes the thing that encompasses all of them and continues to be infinite, or finite and unbound. If there are multiverses the thing that separates them may actually be a void of absolutely nothing. If our 'universe' which we will call... Mark... has an edge within the grater universe then, yes, we now have ourselves a center. If on the otherhand Mark is still a finite, unbound space within the greater universe, it still has no center. Essentially, a multiverse doesn't win you this arguement, because the question of infinite verses finite and unbound remains unresolved.

I was going to call our universe Cronos, but decided it was too lofty for the subject matter, so Mark it was.

If it really helps you, let's go back to the balloon analogy. The center of the ballon, the universe, is Zero Time, the interior is the past, the exterior the future. That's the closest you're going to get to having a center.
 
  • #84
salvestrom said:
You are mincing up terminologies. If multiverses exist, then the universe becomes the thing that encompasses all of them and continues to be infinite, or finite and unbound. If there are multiverses the thing that separates them may actually be a void of absolutely nothing. If our 'universe' which we will call... Mark... has an edge within the grater universe then, yes, we now have ourselves a center. If on the otherhand Mark is still a finite, unbound space within the greater universe, it still has no center. Essentially, a multiverse doesn't win you this arguement, because the question of infinite verses finite and unbound remains unresolved.

I was going to call our universe Cronos, but decided it was too lofty for the subject matter, so Mark it was.

If it really helps you, let's go back to the balloon analogy. The center of the ballon, the universe, is Zero Time, the interior is the past, the exterior the future. That's the closest you're going to get to having a center.

Why not? And don't tale my questioning to heart, I just want to be more educated on these topics..
 
  • #85
The Earth's surface has no center. Where ever you stand upon it there is an equal amount of mileage in any direction before you arrive back where you started. The finite, unbound universe is treated the same way. Where ever you position yourself, here, Andromeda, the Sloan Wall, you will always have an equal amount of lightyears in every direction before you arrive back at where you started.

Have you ever played the old computer game Asteroid? If you are familiar with the idea of the ships and asteroids disappearing off the edge of the screen and reappearing at the opposite edge, then you have the idea of a finite, unbound universe. To further visualise it, imagine that the ship remained in the middle at all times and traveling around simply scrolled the screen around (like a platformer game does).

In any case, all you can ever have is a starting point. But there are no starting points of any special property that they can be called the center.
 
  • #86
Drakkith said:
We have overwhelming evidence of at least a single universe and zero evidence of more than a single universe. I think in this case we should stick to a single universe model until something tells us otherwise.

Absolutely. I don't recall anybody suggesting otherwise. The model doesn't change until there is evidence. You don't base practical application on something hypothetical. In no way does that mean we should discount everything that conflicts with the model though. Within reason of course.

Science should never be dogmatic.
 
  • #87
salvestrom said:
The Earth's surface has no center. Where ever you stand upon it there is an equal amount of mileage in any direction before you arrive back where you started. The finite, unbound universe is treated the same way. Where ever you position yourself, here, Andromeda, the Sloan Wall, you will always have an equal amount of lightyears in every direction before you arrive back at where you started.

Have you ever played the old computer game Asteroid? If you are familiar with the idea of the ships and asteroids disappearing off the edge of the screen and reappearing at the opposite edge, then you have the idea of a finite, unbound universe. To further visualise it, imagine that the ship remained in the middle at all times and traveling around simply scrolled the screen around (like a platformer game does).

In any case, all you can ever have is a starting point. But there are no starting points of any special property that they can be called the center.

What would the core of the Earth be in your situation?
 
  • #88
Flustered said:
What would the core of the Earth be in your situation?

You miss the point. What is the center of the circumference of a circle? Forget that it's a circle and realize that it is just a line that connects to itself.
 
  • #89
Fuzzy Logic said:
You miss the point. What is the center of the circumference of a circle? Forget that it's a circle and realize that it is just a line that connects to itself.

Yes. Note that just because you walk along a line and find yourself back at your starting point does not mean you are on a circle. There are many other ways this can happen, and they don't all involve an extra dimension.

Likewise, you can walk along a surface and find yourself back where you started without the surface having to enclose anything, thus without it having to have a centre at all.
 
  • #90
Flustered said:
What would the core of the Earth be in your situation?

As I stated in an above post using the balloon analogy, the core of the Earth might represent zero time to the present (at the surface). Beyond the present is the future. This is as close to any 'center' as is possible for you to ever get, unless something very radical comes along in the future that shows our universe to be contrary to what our best minds have concluded our best data to mean.
 
  • #91
So what I'm getting out of this, is that the universe is flat and it connects to itself in a line. But there is no center, even though I can move in 3D? Also the circumference argument is only 2D. The universe is not 2D.
 
  • #92
The universe is 3D. The effect we are describing occurs in every possible direction. You will, in a finite, unbound universe, always end up back where you started. Someone stood 6 feet to your left can see 6 feet further left than you can, however, all he sees in that extra 6 feet is the 6 feet extra that you can see to the right, that he cannot (assuming, for the sake of explanation, that the observable universe is equal to the actual universe).

If you follow this through for every possible point in spacetime you have a bunch of overlapping spheres that give you the view from each point, but no point has any special property that makes it the center. It isn't too dissimilar from the notion of the Earth having a top or bottom. This presupposes it's possible to have a 'right way up', but such a thing is entirely arbitrary.
 
  • #93
Flustered said:
So what I'm getting out of this, is that the universe is flat and it connects to itself in a line. But there is no center, even though I can move in 3D? Also the circumference argument is only 2D. The universe is not 2D.

That is because we poor humans cannot actually imagine 3D volumes without boundaries. But we can imagine 2D surfaces without boundaries and extrapolate to 3D.

Back when computer programs were carved on stone tablets with sharpened bone, there used to be all manner of dungeons games comprised of nothing more than 10x10 rooms with stuff in them. There were 10 levels to the dungeon, making for a 1000 room dungeon, 10x10x10. What's cool is that you can walk (or climb) in any direction without limit. Walk 10 rooms West and you find yourself back in the same room. Climb ten floors up and you're back in the same room.

Some interesting things about this arrangement:
  • it is finite in extent - no more than 10 units in any dimension
  • it is unbounded - there are no borders, no edges
  • there is no centre - no room can claim to be at the centre - in fact, no room can claim to have any special privilege over any other
  • from any room, you can see the same distance in every direction i.e. every room exhibits the appearance of being at the centre
  • if the entire thing doubled in dimensions (every room underwent mitosis into 2), the entire dungeon would double in size yet it would not grow from any centre
  • it is perfectly mathematically trivial
 
  • #94
I don't know about you, but I'm out of analogies, so let's hope he gets it this time around...
 
  • #95
Flustered said:


http://www.youtube.com/watch?v=VOz4PkdY7aA&feature=related


Videos like these and many more show animations of the big bang, they show it as an observer somewhere outside of the universe. They put these on all the science channels as well, why would they put false information like this in the public and give them faulty ideas of the big bang if it is not true. From what you stated this animation cannot be valid because there is no edge or outside of the universe, correct?


The animations are representations only and no they do not accurately reflect the overall topology or intinsic manifold of the Universe. Trying to imagine or visualise the entire Universe from an external vantage point is...well...pointless. Asking for the center is like standing at the north pole and asking which way is north, it has no meaning.

The reason you find general popularizations like this is because they are popular and accessable, but they should be taken at face value and for the popularizations that they are.

To better understand the early universe then I would recommend you read Steven Weinbergs the first 3 minutes.

Additionally you can discard the idea you have on multiverses, if indeed there are multiverses (which I think is speculative at very best) then it is probably unlikely they have any causal connection to our Universe .

Try to remember the BB is not a ballistic explosion in a pre-existing background but was the rapid expansion of the Universe itself - not into a pre-existing empty space as the space itself is part of the expansion. Reality expanded from > Plancke time and this is well understood physics, now before Plancke time is anyones guess and a different ballgame.

If you have any other questions please ask, I understand it is a difficult concept but honestly is one well worth sticking with :smile:

Cosmo
 
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  • #96
Another way of thinking about is this:

The universe is all there was and is. At one time in the very far past, distances between points were very very small (smaller than an atom). Then rapidly, distances between points became much larger, and distances between points have been increasing ever since.
 
  • #97
This may be a dumb question but how do cosmologist know the BB was smaller than an atom? What if it was the exact size as a proton. Does something in the acceleration say that it was smaller than an atom? If so what about the acceleration proves this?

Did the BB just pop into existence, or was the singularity existing there for some time, than decide to blow. Or did it expand the moment it popped into existence?
 
  • #98
Never mind, very off topic after giving it some thought.
RD
 
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  • #99
thetexan said:
I am serious and you haven't addressed the question. In a mind experiment, if I could stand off some distance from the universe I could point and say...'there it is' and there would be some central area to that thing. Or, using a different approach...since everything in the universe blasted from the singularity it is obvious that the parts of the universe, including space itself is accelerating outward from that initial start. If it isn't then from what are all the elements of the universe accellerating? IF we could play the tape backward we could easily pinpoint the location of the origination point. Just because we cant, or have difficulty figuring out how to locate the point doesn't mean it doesn't exist. And since it DID once exist...that being the point of the big bang...by what logic do you determine that it immediately is lost and can't be found?

It seems that everything is accelerating from somewhere common otherwise everything would be accelerating from different origins. Just because everything seems to be accelerating from our vantage point only means we can't tell where the origin is. That does not mean it doesn't exist.

Unless you are willing to argue that every body is accelerating from different origins then they must be sharing a common origin. Where?

tex
Hey? 'Sup? I was watching discovery channel the other day and they were showing a new mystery in space of a bunch of oddly behaving galaxies. They seemed to be orbiting something that was not there. The center of the universe perhaps? I believe the expansion of our universe is caused by the undetectable dark matter still being spewed into our dimension by the black-hole from which our universe was born into existence?? I'm asking if this is even remotely possible? That is the only uneducated explanation to me! Peace Brothers and Sisters!
 
  • #100
Flustered said:
This may be a dumb question but how do cosmologist know the BB was smaller than an atom? What if it was the exact size as a proton. Does something in the acceleration say that it was smaller than an atom? If so what about the acceleration proves this?

Did the BB just pop into existence, or was the singularity existing there for some time, than decide to blow. Or did it expand the moment it popped into existence?

The size of the early universe is calculated by taking the current rate of expansion, assuming it has been the same, and working out what happens as you go backward. From this you end up with a very dense universe some 13.7 billion years ago.

Questions about the existence of the universe are as yet unanswerable. It might have been a cosmic egg laid by a cosmic chicken for all anyone can prove.
 
  • #101
korben dallas said:
Hey? 'Sup? I was watching discovery channel the other day and they were showing a new mystery in space of a bunch of oddly behaving galaxies. They seemed to be orbiting something that was not there. The center of the universe perhaps? I believe the expansion of our universe is caused by the undetectable dark matter still being spewed into our dimension by the black-hole from which our universe was born into existence?? I'm asking if this is even remotely possible? That is the only uneducated explanation to me! Peace Brothers and Sisters!

Galaxies are able to orbit around shared centers of gravity. It isn't necessary for anything to be there. An alternative is a large, old black hole. Dark matter is actually thought to counteract space expansion, as it exerts a gravitational influence. There is no indication that dark matter comes from black holes, which exist in our dimension. And although I personally treat the starting universe as having been the mother of all black holes, whatever it was, it isn't it anymore.
 
  • #102
salvestrom said:
The size of the early universe is calculated by taking the current rate of expansion, assuming it has been the same, and working out what happens as you go backward. From this you end up with a very dense universe some 13.7 billion years ago.

MISLEADING BY FAR. What you are talking about is the observable universe, NOT the universe and this is an extraordinarily important distinction.
 
  • #103
If the universe is homogenous, then at which ever point you stand, the result should be the same. Constant expansion, rewound to a denser universe 13.7 billion years ago. This leads to the conclusion that 13.7 billion years ago the entire sha-bang was bound up together. In fact, playing with the expansion rate and altering the age shouldn't make any difference. It all starts at the big bang, not just our observable bit.
 
  • #104
salvestrom said:
If the universe is homogenous, then at which ever point you stand, the result should be the same. Constant expansion, rewound to a denser universe 13.7 billion years ago. This leads to the conclusion that 13.7 billion years ago the entire sha-bang was bound up together. In fact, playing with the expansion rate and altering the age shouldn't make any difference. It all starts at the big bang, not just our observable bit.

I agree with what you said above, but NOT that this implies ANYTHING about the size of the early universe other than that it was a lot smaller than it is now. It was very possibly infinite at the start and is infinite now. Of course if it WAS finite at the start, then it's finite now, but we still have no idea how big it was then because we have no idea how big it is now. Your analysis is correct for DENSITY, not size.
 
  • #105
phinds said:
I agree with what you said above, but NOT that this implies ANYTHING about the size of the early universe other than that it was a lot smaller than it is now. It was very possibly infinite at the start and is infinite now. Of course if it WAS finite at the start, then it's finite now, but we still have no idea how big it was then because we have no idea how big it is now. Your analysis is correct for DENSITY, not size.

Given how small an area you could crush the mass-energy of the universe into, the density can only be high if there is less space or the space we have is highly curved. If there were space that was beyond the big bang, it would form a break in the homogenity (we wouldn't necessarily be able to see it from our location).

Anyway, expansionm age and density imply a significantly smaller universe, which we seem to both agree on.
 
<h2>1. Where is the center of the universe?</h2><p>The center of the universe is a concept that has puzzled scientists and philosophers for centuries. However, according to current scientific understanding, there is no specific point that can be considered the center of the universe. The universe is constantly expanding and there is no fixed point from which it is expanding.</p><h2>2. Is the Earth the center of the universe?</h2><p>No, the Earth is not the center of the universe. In fact, for centuries, it was believed that the Earth was the center of the universe based on the geocentric model. However, with advancements in technology and scientific discoveries, it has been proven that the Earth is just one of many planets in our solar system and the universe is much larger than we can imagine.</p><h2>3. Can we determine the center of the universe?</h2><p>As mentioned earlier, the universe is constantly expanding and there is no fixed point from which it is expanding. This makes it impossible for us to determine the exact center of the universe. However, scientists use the cosmic microwave background radiation, which is the leftover radiation from the Big Bang, to map the distribution of matter in the universe and estimate the center of mass.</p><h2>4. Is the Big Bang the center of the universe?</h2><p>No, the Big Bang is not the center of the universe. The Big Bang is the event that is believed to have started the expansion of the universe. However, the universe has been expanding and evolving since the Big Bang, and there is no fixed point that can be considered the center.</p><h2>5. Could there be multiple centers of the universe?</h2><p>There is no evidence to suggest that there could be multiple centers of the universe. The current understanding is that the universe is homogeneous and isotropic, meaning that it looks the same in all directions. This suggests that there is only one center of mass in the universe, and it is constantly changing due to the expansion of the universe.</p>

1. Where is the center of the universe?

The center of the universe is a concept that has puzzled scientists and philosophers for centuries. However, according to current scientific understanding, there is no specific point that can be considered the center of the universe. The universe is constantly expanding and there is no fixed point from which it is expanding.

2. Is the Earth the center of the universe?

No, the Earth is not the center of the universe. In fact, for centuries, it was believed that the Earth was the center of the universe based on the geocentric model. However, with advancements in technology and scientific discoveries, it has been proven that the Earth is just one of many planets in our solar system and the universe is much larger than we can imagine.

3. Can we determine the center of the universe?

As mentioned earlier, the universe is constantly expanding and there is no fixed point from which it is expanding. This makes it impossible for us to determine the exact center of the universe. However, scientists use the cosmic microwave background radiation, which is the leftover radiation from the Big Bang, to map the distribution of matter in the universe and estimate the center of mass.

4. Is the Big Bang the center of the universe?

No, the Big Bang is not the center of the universe. The Big Bang is the event that is believed to have started the expansion of the universe. However, the universe has been expanding and evolving since the Big Bang, and there is no fixed point that can be considered the center.

5. Could there be multiple centers of the universe?

There is no evidence to suggest that there could be multiple centers of the universe. The current understanding is that the universe is homogeneous and isotropic, meaning that it looks the same in all directions. This suggests that there is only one center of mass in the universe, and it is constantly changing due to the expansion of the universe.

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