Exploring an Infinite Universe: Science & Facts

In summary, the conversation discusses different theories and opinions about the size and nature of the universe. While some believe it is finite and unbounded, others argue that it could be infinite. The concept of a "three-dimensional torus" is also mentioned as a possible explanation. Ultimately, the exact size and nature of the universe is still unknown and remains a philosophical problem.
  • #71
Radrook said:
Adding guests doesn’t affect the hotel’s infinity in any way.
But if we add a room, or height, then the hotel wasn’t infinite to begin with because we cannot add to what is literally infinite. Perhaps you are confusing sequential infinity with literal infinity. They are completely different from each other.


Sequential infinity is represented by a number line with two arrows indicating that the number sequences go on forever. In short, that we can always add one more to the sequence.

Literal infinity doesn’t allow that. The fellow who wrote the article is confusing the two as well. In fact, he contradicts himself semantically by saying that a hotel’s infinite number of rooms are countable. Countability requires finiteness.

I don't know enough math to argue with you, but that doesn't seem right and consider that that a huge number of physicists seem to have no trouble with the idea that our universe may be infinite and I'm sure they are all aware that it is expanding. How do you explain that? What am I missing?
 
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  • #72
Radrook said:
Something infinitely large can't expand because it is already everywhere. That would be like saying that you can add another floor to a building of infinite number of floors. Infinity cannot be increased. If what is called infinite can be increased by an addition, then it was not infinite to begin with.

Yes and no.

You are right in a way, but not right in another way.

This stems from the problem of comparing two infinities. There are a number of ways to do it, which are not the same.

One way is Cantor's hierarchy of infinities. In this view the definition is that "you can make a bijection (one-to-one and onto mapping) from one set to another if and only if they are the same size." Then he defines any set that has a bijection with the integers is a countable infinity, and proves that the real numbers are not countable: they are a larger order of infinity than the integers.

The other way is measure theory. You have an infinite number of situations but somehow the probability sums to one. Each situation has the probability zero, so there seems to be a paradox. There are ways to get around this completely sensibly: usually you use calculus. But the upshot is that you CAN quite reasonably divide an infinity by an infinity if you are careful about it.

You seem to have heard of Cantor's ideas. But in physics the measure theory idea dominates. With good reason: it gives actual numbers.

Now in real life it is quite possible that we have an instance of an infinity divided by an infinity. The universe could be infinitely large and contain an infinite amount of mass. Nevertheless since we assume that that mass is evenly distributed, we can both define the ratio using measure theory, and actually measure that ratio in real life.

So while in the Cantor sense the Universe isn't getting any bigger, in the measure theory sense it is. We assume that the amount of mass is staying the same, then if that ratio is decreasing then the amount of space is getting larger.
 
  • #73
Would it be to much of a stretch to say that it would be impossible to ever determine the size and shape of our universe because we are naturally a part of the universe with a limited view.

If somehow we could detach ourselves from the universe (i.e an aerial view of the landscape reveals much more than being on the ground) then we would be able to determine the dimensions of the universe. Whilst we observe it as a whole
 
  • #74
shifty88 said:
If somehow we could detach ourselves from the universe (i.e an aerial view of the landscape reveals much more than being on the ground) then we would be able to determine the dimensions of the universe. Whilst we observe it as a whole

There IS no "outside" from which we can get such a vantage point, so your question is pretty much equivalent to asking if pigs had wings, could they fly?
 
  • #75
shifty88 said:
Would it be to much of a stretch to say that it would be impossible to ever determine the size and shape of our universe because we are naturally a part of the universe with a limited view.

If somehow we could detach ourselves from the universe (i.e an aerial view of the landscape reveals much more than being on the ground) then we would be able to determine the dimensions of the universe. Whilst we observe it as a whole

What phinds says is correct. If the Universe had an "outside" then it would not be the Universe. The Universe can be defined as: "the totality of everything that exists" therefore if something exists, by definition it is part of the Universe.

For their to be an "outside" would also require a "center" and an "edge" which would invalidate the cosmological principle of isotropy.

We can, however, measure curvature from within the metric to determine if space is euclidean or not - unfornutaley the degree of error is rather small and it is entirely possible that out little patch of the Universe we can see (The Observable Universe) is too small a piece of the whole (Whether finite or not) to determine curvature with any acceptable margin of error.

Global curvature is the key to the "shape" of the Universe in my opinion.

Hope this helps.

Cosmo
 
  • #76
phinds said:
There IS no "outside" from which we can get such a vantage point.
Obviously. Therefore we can never know for sure what shape or size the universe it.
We can only use our best educated guess from what observations we can make.
 
  • #77
The observable universe is obviously finite, so it can expand to its heart's content without offending our logical sensibilities. It is also very close to being dead flat - according to WMAP and supernova studies. This suggests the universe is much larger than the part observationally accessible to us. In is, however, possible the universe could be both flat and finite.
 
  • #78
shifty88 said:
Would it be to much of a stretch to say that it would be impossible to ever determine the size and shape of our universe because we are naturally a part of the universe with a limited view.

If somehow we could detach ourselves from the universe (i.e an aerial view of the landscape reveals much more than being on the ground) then we would be able to determine the dimensions of the universe. Whilst we observe it as a whole

To me it seems impossible for a finite being to observe an infinity.

It would be possible though to deduce an infinity, by showing that a contradiction occurs if the infinity is not there.

Detaching ourselves from the Universe is by definition impossible. But it could be that our current conception of the Universe is wrongly limited, and there is another view within our Universe that would look at our current conception from outside. Indeed the geometry of spacetime is hyperbolic, and a hyperbolic geometry is one way to fit an infinity inside of a finite space. If there are more than four physical dimensions in our Universe it is possible that there is a perspective in which 4D spacetime is a bounded subset within some other space.
 
  • #79
Chronos said:
The observable universe is obviously finite, so it can expand to its heart's content without offending our logical sensibilities. It is also very close to being dead flat - according to WMAP and supernova studies. This suggests the universe is much larger than the part observationally accessible to us. In is, however, possible the universe could be both flat and finite.


What do you mean? Spatially infinite but inhomogeneous with a finite amount of matter? That could be.
 
  • #80
There are at least four possible topologies that are flat, finite and obey the cosmological principal.
 
  • #81
The universe is finite but like explain earlier with an ant on a beach ball to the eye it would seem infinite because the only dimensions we can see is the ones we are in. If you were born and lived on an island all your life you might think that the island is all there is. So if you cannot see an edge to the universe it doesn't make it infinite. To be able to prove non mathematically that our universe is finite we would have to go beyond our own universe but since we cannot detect past the 4th dimension we are stuck.
 
  • #82
vanvlizr said:
The universe is finite

This is pure speculation on your part and should be stated as an unsupportable opinion, not a fact.
 
  • #83
that is my unsupportable postion atleast with current technology, but it is a fathamable and possible theory. as of now there is no way to be sure, everything about this topic is speculation.
 
  • #84
phinds said:
This sounds like philosophical nonsense run amuck, and should be posted in the philosophy section, not here where we base our statements on evidence.


Can you specify exactly what is so nonsensical about what he just said.
 
  • #85
phinds said:
This is pure speculation on your part and should be stated as an unsupportable opinion, not a fact.


The question is why state opinion as if it were fact in the first place. If indeed the universe is finite then it is bounded. Which brings up the question as to what is outside those boundaries. If indeed there is nothing outside, then that answer itself becomes nonsensical because it is self contradictory. In short, it is identical to the "Who created God" paradox of infinite regression. The only way around it is to negate the existence of dimensionality and to declare its perception as a sensory illusion.
 
  • #86
Radrook said:
Can you specify exactly what is so nonsensical about what he just said.

Uh ... did you READ the post that was in response to?
 
  • #87
Its hard to actually understand how exactly did they measure the size of the universe? I am also quite concerned with the fact that there could still be an outer void of nothingness located somewhere out of the universe. What if dimensions aren't tightly packed like said in string theory

1: is a straight line that has 2 directions of spatial freedom and is infinite (is also infinitely thin)
2: is a combination of two 1 dimensional lines and has 4 directions of spatial freedom it is also infinitely thin (because it has no depth)
3:It is an increase in spatial freedom in which is depth is the increase (since it has depth then we would now assume it is not infinetly thin
4: Now there is the temporary dimension which is used for measurement of physical change and then there is the spatial dimension which is a tesseract.
now it may seem pointless to have told you this but its confusing how we would consider dimensions tightly compressed. So why does string theory assume its tightly compressed as moving forwards in dimensional states increases physical state ?
 
  • #88
The outside of the universe is literally nothing. We observe the end of the universe, though it is not the true end of the universe because the time-space continuum doesn't allow us to view the true edge. The universe is forever expanding and new galaxies far away have been created, possibly billions of years ago, but because of the distance, the light reflecting off of those galaxies may not have reached us yet, allowing us not to view them, or if the light has recently reached us, we would view it as a new galaxy, though it was truly just too far to allow the reflected light to reach us. It is only logical that the universe is constantly expanding because the entropy within the universe is forever increasing. There is a good point made in this article http://www.allaboutscience.org/theory-of-relativity.htm
Only if we could go the speed of light could we determine the current dimensions of the universe
 
Last edited:
<h2>1. What is an infinite universe?</h2><p>An infinite universe is a theoretical concept in which the universe has no boundaries or limits in terms of size or content. This means that the universe goes on forever, with no end or edge.</p><h2>2. How do scientists explore an infinite universe?</h2><p>Scientists explore an infinite universe through various methods such as telescopes, satellites, and space probes. They also use mathematical models and simulations to study the universe and its properties.</p><h2>3. Is there any evidence for an infinite universe?</h2><p>Currently, there is no concrete evidence for an infinite universe. However, some theories and observations, such as the cosmic microwave background radiation, suggest that the universe may be infinite.</p><h2>4. What are some implications of an infinite universe?</h2><p>If the universe is truly infinite, it would mean that there are an infinite number of galaxies, stars, and planets. It would also suggest that there may be other forms of life in the universe, as the chances of life evolving on other planets would increase with an infinite number of planets.</p><h2>5. How does the concept of an infinite universe challenge our understanding of the universe?</h2><p>The concept of an infinite universe challenges our understanding of the universe because it goes against our intuition and common sense. It also raises questions about the origins and fate of the universe, as well as the possibility of multiple universes.</p>

1. What is an infinite universe?

An infinite universe is a theoretical concept in which the universe has no boundaries or limits in terms of size or content. This means that the universe goes on forever, with no end or edge.

2. How do scientists explore an infinite universe?

Scientists explore an infinite universe through various methods such as telescopes, satellites, and space probes. They also use mathematical models and simulations to study the universe and its properties.

3. Is there any evidence for an infinite universe?

Currently, there is no concrete evidence for an infinite universe. However, some theories and observations, such as the cosmic microwave background radiation, suggest that the universe may be infinite.

4. What are some implications of an infinite universe?

If the universe is truly infinite, it would mean that there are an infinite number of galaxies, stars, and planets. It would also suggest that there may be other forms of life in the universe, as the chances of life evolving on other planets would increase with an infinite number of planets.

5. How does the concept of an infinite universe challenge our understanding of the universe?

The concept of an infinite universe challenges our understanding of the universe because it goes against our intuition and common sense. It also raises questions about the origins and fate of the universe, as well as the possibility of multiple universes.

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