Many-Worlds Theory: Existence of Multiple Universes

In summary: MWT is meaningless.MWT is meaningless because it's indistinguishable from the Copenhagen interpretation.
  • #1
Emanresu56
13
0
I'm not a huge fan of many-worlds theory, but I do think that multiple Universes can exist. My only problem is that if there's an infinite number of Universes, why hasn't a Universe collided with our own yet? Are there other Universes somehow keeping that Universe from colliding with ours? And does it go on like that ad infinitum?
 
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  • #2
The "worlds" in the MWI aren't flying around like the molecules of the air. :smile: They don't occupy locations in some kind of space, and it isn't possible to make sense of such ideas as the ones you have in mind ("a world's position in space", "the distance between two worlds", etc).
 
  • #3
As Fredrik points out, the universes in WMI aren't out there, they're right here - overlapping. They just don't interact with us (because of some as-yet unexplained reason).
 
  • #4
DaveC426913 said:
As Fredrik points out, the universes in WMI aren't out there, they're right here - overlapping. They just don't interact with us (because of some as-yet unexplained reason).

Regardless of the infinite possibilities in an infinite multiverse where the "overlapping" doesn't matter? Sorry if I seem hostile, I just have this nagging intuition that Many-Worlds does not work. :)
 
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  • #5
Emanresu56 said:
Regardless of the infinite possibilities in an infinite multiverse where the "overlapping" doesn't matter?
This isn't a sentence; it is missing a verb. I don't understand what you are asking. Can you rephrase?

Emanresu56 said:
I just have this nagging intuition that Many-Worlds does not work. :)
Intuition and its brother "common sense" are as useful as teats on a snake when it comes to the mathematical nature of the universe. Don't use them.
 
  • #6
DaveC426913 said:
This isn't a sentence; it is missing a verb. I don't understand what you are asking. Can you rephrase?

Basically, I've been having this nagging idea that an infinite multiverse leads to an infinite regress - and, while there might not be any problems with an infinite regress existing, there's still the feeling that Many-Worlds is simply a cop-out. I use "feeling" in the intuitive sense, not the personal sense.
 
  • #7
What would it even mean for a universe to "collide" with another?

What would it matter if there were infinitely many universes versus a finite number?

From what I've seen, MWI is just a complicated way physicists use to explain how randomness appears. That instead of requiring a "choice" to ever be made, the universe simply permutes through all possible choices.
 
  • #8
DaveC426913 said:
As Fredrik points out, the universes in WMI aren't out there, they're right here - overlapping.

Sidney Coleman used to say "In Many-Worlds, there are not many worlds. There is only one world." His point was that in MWI, the wave function does not collapse, but in all measurements it appears as if it does.

It may also be worth pointing out that MWI is an interpretation, not a theory. It makes exactly the same predictions as Copenhagen: there is no test possible, even in theory, that distinguishes them.
 
  • #9
Emanresu56 said:
Basically, I've been having this nagging idea that an infinite multiverse leads to an infinite regress - and, while there might not be any problems with an infinite regress existing, there's still the feeling that Many-Worlds is simply a cop-out. I use "feeling" in the intuitive sense, not the personal sense.

Cop outs are all the rage atm, it reflects some rather annoying limitations in physics, mind you cop out [itex]\neq[/itex] worthless.

Me I object to MWI on the basic principle I object to anything in science, and that is the show me the money factor. It's arbitrary and no one gets out of it for long.

Intuition isn't useless in physics, physics just doesn't care what you think should happen or should be, only what does in fact happen and is and that is a fish that is hard to catch.
 
  • #10
Emanresu56 said:
Basically, I've been having this nagging idea that an infinite multiverse leads to an infinite regress - and, while there might not be any problems with an infinite regress existing, there's still the feeling that Many-Worlds is simply a cop-out. I use "feeling" in the intuitive sense, not the personal sense.
There are intuitive as well as mathematical physics bases for multiverse. And, it seems that there's always going to be room for something beyond any description that mankind will be able to produce.
 
  • #11
I believe in Many-Worlds Theory because I am the center of all of them!
 
  • #12
I am happy that more and more people abandon Copenhagen I. and accept MWI
 
  • #13
The Copenhagen interpretation is also flawed because it treats the observer as an outside 'God' when in fact, we the observers should also be treated within the same quantum mechanical framework.
 
  • #14
What is the principle of MWT?
 
  • #15
Phrak said:
What is the principle of MWT?

The wave function resolves itself in every possible form in other realities/worlds, the measurement is discernibly identical to CI, thus it's indistinguishible from CI, and probably always will be, which has lead some people to cry *cough cop out*. This theory is deterministic.

http://en.wikipedia.org/wiki/Many-worlds_interpretation

* There is circularity in Everett's measurement theory. Under the assumptions made by Everett, there are no 'good observations' as defined by him, and since his analysis of the observational process depends on the latter, it is void of any meaning. The concept of a 'good observation' is the projection postulate in disguise and Everett's analysis simply derives this postulate by having assumed it, without any discussion.[23] Talk of probability in Everett presumes the existence of a preferred basis to identify measurement outcomes for the probabilities to range over. But the existence of a preferred basis can only be established by the process of decoherence, which is itself probabilistic.[24]

MWI response: Everett's treatment of observations / measurements covers both idealised good measurements and the more general bad or approximate cases.[25] Thus it is legitimate to analyse probability in terms of measurement; no circularity is present.

What I might call the magic bullet that kills it and others might hand wave away. Even the answer here does not rid us of a priori assumptions that cannot ever be verified, and in fact it's high order hand waving/philosophy in its purest sense. Which leads a lot of people to say, so what's the point? There are 1001 possible alternatives to CI already, why do we have to invent ones that can potentially never be verified; my answer is to ask the String Theorists, they've been getting away with it for years quite successfully. :smile::tongue2:

Undeniably MWI is interesting but is it anything like what really happens or just more wishful thinking to explain away our doubts?

By the way this isn't exactly my position but it certainly has a good point.
 
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  • #17
Dmitry67 said:
I don't know what is a concept of 'good observations' [25], 1956 (!)
But now all problems are solved:
http://en.wikipedia.org/wiki/Quantum_decoherence

They are? How exactly? Have you visited these many worlds to in act verify the results of their experiments? Good observation just means being able to measure something you haven't just assumed before you started the experiment. In that sense MWI is axiomatic.
 
  • #18
The Dagda said:
1. They are? How exactly?
2. Have you visited these many worlds to in act verify the results of their experiments? Good observation just means being able to measure something you haven't just assumed before you started the experiment. In that sense MWI is axiomatic.

1. Name the problems first :)
2. Have you even visited the interior of the black holes to speculate about the Schwarzschild/Kerr solution? You just believe that if GR works outside there are no reasons to believe that it does not work inside!
 
  • #19
MWI is very logical.

1. We take QM in its purest form, without all weird and magic 'observers', 'measurements', 'our knowledge' etc.
2. We make an experiment with a Schodienger cat, and based on the calculations there are 2 cats, dead and alive!
3. But we make another calculations (described in the Quantum decoherence article) and we find out these these 2 cats do not interact with each other, and it explains why we see only one of them
4. However, we need to conclude that the symmetry is preserved, and all other outcomes do exist.

Very often people try to eliminate MWI using Occams razor. But it is a logical mistake: you percieve only one world, so you think that MWI suggests something EXTRA: another worlds. Then you try to cut these extra worlds using Occams razor or falifiability blah blah blah.

But in fact, it is CI (and other interpretations) which adds something extra: it adds a symmetry-breaking mechanism (called 'randomness') to explain why some cats are real and why some are not.

Imagine that we talk about an infinite flat space. The claim that it is infiniteis simpler then a claim that 'it ends somewhere'. because if it ends somewhere then there is a strange object called 'end of space', it has shape etc. So the claim 'all outcome exist' is simpler, then 'only one outcome exists'
 
  • #20
Dmitry67 said:
1. Name the problems first :)
2. Have you even visited the interior of the black holes to speculate about the Schwarzschild/Kerr solution? You just believe that if GR works outside there are no reasons to believe that it does not work inside!

What does visiting an inferred phenomena we really know nothing directly about have to do with the interpretation of QM? You seem to be avoiding the issues, they are laid out in a previous post.

Occam's razor in this case makes the two the same, which means MWI gets eliminated by the laws of theory.

A theory must distinguish itself from any preceding theory. If its just to all observable purposes just the same as CI then it is CI with extra philosophical nugat to make philosophers all hot.

There aren't two cats in this case there is every probable decay in a radioactive isotope, which may lead to the cat being dead or alive.

You can't appeal to randomness as a deal breaker just because you don't like the implications, this is physics not philosophy, if you want to make a claim it has to be experimentally verifiable or distinguishable, or it is just arm waving away things you personally think should be wrong in your own particular world. If we can do that then we might as well just become String Theorists and abandon experiment altogether.
 
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  • #21
The Dagda said:
1
What does visiting an inferred phenomena we really know nothing directly about have to do with the interpretation of QM? You seem to be avoiding the issues, they are laid out in a previous post.

2
Occam's razor in this case makes the two the same, which means MWI gets eliminated by the laws of theory.

3
A theory must distinguish itself from any preceding theory. If its just to all observable purposes just the same as CI then it is CI with extra philosophical nugat to make philosophers all hot.

1
I showed that the falciability is applicable to MWI to the same extent as to the interior of the BH. Modern physics uses a weaker version of the falsiability, so MWI has no problems with it.

2
See my post above.
Occams razor is cutting away an extra symmetry-breaking mechanism called 'randomness' because it is not needed to explain what we observe.

3
So far the status of MWI is an 'interpretation', but I think some tricky experiments can be done to distinguish if from the CI
 
  • #22
Dmitry67 said:
1
I showed that the falciability is applicable to MWI to the same extent as to the interior of the BH. Modern physics uses a weaker version of the falsiability, so MWI has no problems with it.

No you didn't, how can you falsify something that is completely indistinguishable from CI?

2
See my post above.
Occams razor is cutting away an extra symmetry-breaking mechanism called 'randomness' because it is not needed to explain what we observe.

This is just arm waving. Since when has occam's razor been a law of science?

3
So far the status of MWI is an 'interpretation', but I think some tricky experiments can be done to distinguish if from the CI

Like what? That's the whole point, until there are any it remains a purely philosophical interpretation. I honestly think these days that Karl Popper should come back from the dead and beat most so called scientists over the head until they start behaving like theorists not philosophers. Not that there isn't immense value in speculation, but let's not keep putting the cart before the horse, you'd of think we'd of learned something from ST, the phrase is not shut up and speculate.

Now in the future I would be delighted to eat my words, when I see a practical application of MWI that distinguishes it from CI, until then I remain firmly convinced it's nothing more than arm waving. Now CI may not be the most complete theory either, but the onus is firmly upon any interpretation to distinguish itself, until it does that appealing to non sequiturs is worthless.
 
  • #23
The Dagda said:
1
No you didn't, how can you falsify something that is completely indistinguishable from CI?

2
This is just arm waving. Since when has occam's razor been a law of science?

3
Like what? That's the whole point, until there are any it remains a purely philosophical interpretation.

4
I honestly think these days that Karl Popper should come back from the dead and beat most so called scientists over the head until they start behaving like theorists not philosophers.

5
Now CI may not be the most complete theory either, but the onus is firmly upon any interpretation to distinguish itself, until it does that appealing to non sequiturs is worthless.

1
I was replying to "if you can not visit alternative worlds, then it is not scientific'

2
good, then should you not mentioned that 'occams razor had erased something' in MWI

3
My ideas are too raw to post them here.
Also, I don't want to share my nobel prize with you :)

4
Hi actually did it. In some worlds :)

5
Wait, wait, you call CI a 'theory'? Wait a minute, it can not be distinguished from the Transactional interpretation, for example. How can you call it a theory?
 
  • #24
Dmitry67 said:
1
I was replying to "if you can not visit alternative worlds, then it is not scientific'

So if I can't visit the planet of the Zoobian smarfarts and converse in the universal language of farts, it means it is scientific. I revise that statement, Karl Popper should come back with a shot gun and some strong language. :tongue2:

2
good, then should you not mentioned that 'occams razor had erased something' in MWI

3
My ideas are too raw to post them here.
Also, I don't want to share my nobel prize with you :)

4
Hi actually did it. In some worlds :)

5
Wait, wait, you call CI a 'theory'? Wait a minute, it can not be distinguished from the Transactional interpretation, for example. How can you call it a theory?

Because of the two slit experiment, and because of Bell's. And because it came first. It is a tentative theory in that sense, although I wouldn't go so far as to say it is firmly theoretical. That said compared to the others it craps on them by virtue of being 90 years or so old. That I'm afraid is science, if it wasn't we'd still be using Newtonian mechanics in astronomy.

I said under Occam's razor they are equal, and that that is no reason to dismiss a concern anyway, you are right. Neither is it a reason to favour MWI over CI, even if all things were equal and they are not, CI has more going for it atm by virtue of itself.

I've actually always like MWI, but as an interested party I'm not a put the cart in front of the horse person.
 
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  • #25
As usual, nobody had changed his mind :)
I hope other reading will find our discussion useful.

I just wanted to comment on this:

The Dagda said:
And because it came first

...

A theory must distinguish itself from any preceding theory.

In fact, CI was the very first, but it does not give it a "right of the first night" with science.
A theory must distinguish itself from *any* theory.

The order of pulications is important to the authors, nobel prized etc, but not for the scientific truth.
 
  • #26
Dmitry67 said:
The order of pulications is important to the authors, nobel prized etc, but not for the scientific truth.
To go further, chronology is counterproductive pedagogically. It's surely much better to learn and understand QM based upon the results of a century of study, rather than based upon the intuition and biases of the people who first worked on it.
 
  • #27
Hurkyl said:
To go further, chronology is counterproductive pedagogically. It's surely much better to learn and understand QM based upon the results of a century of study, rather than based upon the intuition and biases of the people who first worked on it.

Put your cards on the table, do you think after 90 years of study and revision CI has less than MWI? And if so why? I think personally its still there, but amongst a crowd of young pretenders, but I feel unsure of throwing myself behind anything that relies purely on arm waving, that to me is not science. Not that I am in any position to say what science is, but there you go. I just feel its better to er on the side of caution than flash in the pan fads, like String Theory and MWI. At least CI has experimental evidence albeit inferred. QM is not currently a deterministic theory, and wishing it so will not make it so by dint of magic. Any resorts to speculation, opinion, popularity, authority, need to have something other than a name and a reputation, some evidence would be nice.

Just because you don't think an interpretation has much theoretical worth doesn't mean you don't think it might, as well. It would be just as ignorant to dismiss MWI arbitrarily.
 
  • #28
I thought the scientific method was supposed to begin with something that is observed, and a question about it: "why did this happen?" I find it sad that some "scientific" activities now begin only with the feeling "it would be so cool if this were true", and then they go on to make a big deal of the fact that no mathematical contradictions have been found in it, as if that made it true.
 
  • #29
Dmitry67 said:
MWI is very logical.
1. We take QM in its purest form, without all weird and magic 'observers', 'measurements', 'our knowledge' etc.
What's weird about observers, measurements, and our knowledge. All of these have objective physical referents. On the other hand the parallel, but unobservable outcomes of MWI refer only to mathematical creations.

MWI is logical, but it's based on the faulty premise that quantum wavefunctions refer to real propagations in some quantum underworld. There's no reason to assume that. What we do know is that they describe the 'evolution' of probabilities in mathematical spaces, and the probabilities are associated with the behavior of instruments in real 3D space and time.

Dmitry67 said:
2. We make an experiment with a Schodienger cat, and based on the calculations there are 2 cats, dead and alive!
Standard QM says there's one cat, and assigns probabilities to the two possible, mutually exclusive, results, dead cat or alive cat. This fits with what's observed. No problem.

Dmitry67 said:
3. But we make another calculations (described in the Quantum decoherence article) and we find out these these 2 cats do not interact with each other, and it explains why we see only one of them.
The more parsimonious explanation for why we only see one of them is that the 'other' one doesn't exist except as a mathematical fiction.

Dmitry67 said:
4. However, we need to conclude that the symmetry is preserved, and all other outcomes do exist.

Very often people try to eliminate MWI using Occams razor. But it is a logical mistake: you percieve only one world, so you think that MWI suggests something EXTRA: another worlds. Then you try to cut these extra worlds using Occams razor or falifiability blah blah blah.

But in fact, it is CI (and other interpretations) which adds something extra: it adds a symmetry-breaking mechanism (called 'randomness') to explain why some cats are real and why some are not.
Randomness isn't something added by the theory or CI. It refers to the observed unpredictability of individual quantum experimental phenomena. Recorded data define reality. Metaphysical speculations don't.

Aggregated correlations reveal nonrandom data trends. This suggests a deterministic world.

The problems that the MWI approach purports to solve are pseudoproblems that can be satisfactorily dealt with by simply interpreting quantum theory in terms of what all can agree that it does refer to, rather than what some say it might refer to.

By the way, I don't mean to disparage metaphysical speculation in general. It's an important part of the development of ever deeper and more encompassing physical theories.
 
  • #30
Hurkyl said:
To go further, chronology is counterproductive pedagogically. It's surely much better to learn and understand QM based upon the results of a century of study, rather than based upon the intuition and biases of the people who first worked on it.
Maybe so. It's certainly faster, but I think maybe not so fulfilling. If one has the time, then approaching the subject of the quantum theory as a historical study can be fascinating.

From John Bell's, How to Teach Special Relativity

"I have for long thought that if I had the opportunity to teach
this subject, I would emphasize the continuity with earlier ideas.
Usually it is the discontinuity which is stressed, the radical break
with more primitive notions of space and time. Often the result
is to destroy completely the confidence of the student in perfectly
sound and useful concepts already acquired."
 
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  • #31
Re: "What is the principle of MWT?"

The Dagda said:
The wave function resolves itself in every possible form in other realities/worlds, the measurement is discernibly identical to CI, thus it's indistinguishible from CI, and probably always will be, which has lead some people to cry *cough cop out*. This theory is deterministic.

http://en.wikipedia.org/wiki/Many-worlds_interpretation

That sound's fairly odd for a principle. Alot of words seem to exchanged over something roughly understood.
 
  • #32
Re: "What is the principle of MWT?"

The Dagda said:
The wave function resolves itself in every possible form in other realities/worlds, the measurement is discernibly identical to CI, thus it's indistinguishible from CI, and probably always will be, which has lead some people to cry *cough cop out*. This theory is deterministic.

That sound's fairly odd for a principle. Alot of words seem to exchanged over something roughly understood.
 
  • #33
The Dagda said:
Put your cards on the table, do you think after 90 years of study and revision CI has less than MWI? And if so why?
You've lost sight of the question; the point is how best to understand quantum physics. At the time, CI was pretty much the only option, because the ramifications of relative states hadn't been discovered, indefiniteness hadn't really been treated seriously in a scientific context, and nobody had yet worked out any hidden-variable variations on the theory. But now that we have 90 years of experience, we can make a more informed decisions.

As a mathematician, I look at QT and see two parts: unitary evolution that happens most of the time, and collapse which happens occasionally. It's often a good idea to study things one piece at a time, so it's very natural to study the effects of unitary evolution (in other words, MWI). That's just a good way to learn and study things; it would apply to any theory, and it baffles me how vehemently people seem to reject that notion.

Anyways, while I may have been expecting to then add collapse into the picture1, you run into decoherence -- the interesting phenomenon that the observational effects of collapse can be described as a by-product of unitary evolution. So again, just looking at the theory tells you that it's very natural to consider decoherence-based viewpoint. I'm baffled how many people won't even consider such a thing!

Sure, one can complain about all the non-observable things, but that's not a feature unique to MWI -- we've been doing it with physical theories for centuries. At its core, it's nothing more than the acknowledgment that many different mathematical states can represent indistinguishable physical realities. Again, I'm baffled that people would take such a stance to reject interpretations like MWI.

1: Yes: the CI posits that between collapses, the quantum world behaves exactly as described by MWI.



ThomasT said:
What's weird about observers, measurements, and our knowledge. All of these have objective physical referents.
But, as the quote said, they're "magic". CI excludes, a priori, the possibility that such things can be described by quantum mechanics.

MWI is logical, but it's based on the faulty premise that quantum wavefunctions refer to real propagations in some quantum underworld.
If all predictions of quantum mechanics can be computed (in principle) from the wavefunction, then that means the quantum wavefunctions really do refer to "real propagations in some quantum underworld".

So, I ask you, what predictions of quantum mechanics are not determined (even in principle) by a wave function?
 
  • #34
ThomasT said:
1
What's weird about observers, measurements, and our knowledge. All of these have objective physical referents. On the other hand the parallel, but unobservable outcomes of MWI refer only to mathematical creations.

2
MWI is logical, but it's based on the faulty premise that quantum wavefunctions refer to real propagations in some quantum underworld. There's no reason to assume that. What we do know is that they describe the 'evolution' of probabilities in mathematical spaces, and the probabilities are associated with the behavior of instruments in real 3D space and time.

3
Standard QM says there's one cat, and assigns probabilities to the two possible, mutually exclusive, results, dead cat or alive cat. This fits with what's observed. No problem.

1 At first, "our knowledge" is subjective, not objective.
But the main problem is that CI defines the behavior of the quantum particles based on 'measurement devices', while the measurement devices are themselves huge collections of particles. Such definition is deadly recursive and makes futile any potential attempt to axiomatize the QM (known as 6th Hilberts problem)

2,3
You had so got used to CI that now you can not distinguish QM and CI at all!
In 2 you just describe what CI says
in 3: there is only one cat in CI (and some other I) but *NOT* in MWI. It is a main point of the whole MWI: there are BOTH cats!
 
  • #35
Hurkyl said:
Anyways, while I may have been expecting to then add collapse into the picture1, you run into decoherence -- the interesting phenomenon that the observational effects of collapse can be described as a by-product of unitary evolution. So again, just looking at the theory tells you that it's very natural to consider decoherence-based viewpoint. I'm baffled how many people won't even consider such a thing!

BTW I am curious how Quantum Decoherence (QD) is interpreted in CI.
QD belongs to QM, it is independent of any interpretation

Before, CI had 'wavefunction collapse' in its foundation. But after the discovery of QD it appears that there are two similar things serving the same purpuse :)
 
<h2>1. What is the Many-Worlds Theory?</h2><p>The Many-Worlds Theory, also known as the Multiverse Theory, is a scientific concept that suggests the existence of multiple parallel universes that exist alongside our own universe.</p><h2>2. How does the Many-Worlds Theory explain the existence of multiple universes?</h2><p>The Many-Worlds Theory proposes that every time a quantum event occurs, such as the splitting of an atom, the universe splits into multiple parallel universes, each with its own unique timeline and set of events.</p><h2>3. Is there any evidence to support the Many-Worlds Theory?</h2><p>While there is currently no direct evidence to prove the existence of multiple universes, the Many-Worlds Theory is supported by various experiments in quantum mechanics and the laws of physics.</p><h2>4. How does the Many-Worlds Theory differ from other theories of multiple universes?</h2><p>The Many-Worlds Theory differs from other theories, such as the Bubble Universe Theory, in that it suggests the existence of an infinite number of parallel universes, rather than a finite number of separate universes.</p><h2>5. Can we ever prove the existence of multiple universes?</h2><p>It is currently impossible to prove the existence of multiple universes, as it is a concept that exists beyond the realm of our observable universe. However, with advancements in technology and further research, we may one day be able to gather evidence to support the Many-Worlds Theory.</p>

1. What is the Many-Worlds Theory?

The Many-Worlds Theory, also known as the Multiverse Theory, is a scientific concept that suggests the existence of multiple parallel universes that exist alongside our own universe.

2. How does the Many-Worlds Theory explain the existence of multiple universes?

The Many-Worlds Theory proposes that every time a quantum event occurs, such as the splitting of an atom, the universe splits into multiple parallel universes, each with its own unique timeline and set of events.

3. Is there any evidence to support the Many-Worlds Theory?

While there is currently no direct evidence to prove the existence of multiple universes, the Many-Worlds Theory is supported by various experiments in quantum mechanics and the laws of physics.

4. How does the Many-Worlds Theory differ from other theories of multiple universes?

The Many-Worlds Theory differs from other theories, such as the Bubble Universe Theory, in that it suggests the existence of an infinite number of parallel universes, rather than a finite number of separate universes.

5. Can we ever prove the existence of multiple universes?

It is currently impossible to prove the existence of multiple universes, as it is a concept that exists beyond the realm of our observable universe. However, with advancements in technology and further research, we may one day be able to gather evidence to support the Many-Worlds Theory.

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