10 Big Questions About Parallel Universes

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00:00Strange things are afoot at the Circle K.

00:06Ever wondered if there could be another version of you out there,

00:09living a completely different life in a universe parallel to our own?

00:12From scientists to philosophers to storytellers,

00:15parallel universes have fascinated humans for thousands of years.

00:19From the implications of quantum mechanics

00:21to the vast expanse of cosmological theories,

00:24the so-called multiverse changes every aspect of traditional reality.

00:28This is Unveiled, and today we're taking a closer look

00:31at 10 Big Questions About Parallel Universes.

00:35Do you need the big questions answered?

00:37Are you constantly curious?

00:38Then why not subscribe to Unveiled for more clips like this one?

00:41And ring the bell for more thought-provoking content!

00:45What is a parallel universe?

00:47By definition, what we're dealing with here is a theoretical universe

00:51similar to our own but coexisting alongside us.

00:54Parallel universes might also be called alternate universes.

00:57The implication being that they could be almost entirely the same

01:00but just a little bit different.

01:02Or, on the other end of the scale, they're almost entirely different

01:06– perhaps with different laws of physics to our own –

01:08but still with at least one or a few recognisably similar characteristics.

01:13As such, parallel universes are, of course,

01:15incredibly popular concepts in science fiction.

01:18Mostly because the creative possibilities are pretty much endless.

01:22Imagine you're flipping through TV channels,

01:24but instead of shows, each channel is an altered reality.

01:27Again, some are almost identical to ours,

01:30while others can be widely different with alternate histories,

01:33different rules of nature, etc.

01:35This higher version of the TV Guide would never end.

01:39The choices available are infinite.

01:41Importantly, though, it's more than just a cool story trope.

01:44According to certain scientific theories,

01:46this really could be the structure of reality.

01:49Our universe really might be just one of many in an expansive multiverse.

01:54For example, in the strange realm of quantum mechanics,

01:57the Many Worlds Interpretation says every quantum event

02:00could feasibly split this universe into two.

02:03Meanwhile, some models of cosmic inflation claim that

02:06parallel worlds are possible through the formation of distinct bubble universes

02:10as space expands ever outwards.

02:13How big is the universe?

02:15Infinite.

02:16How does quantum mechanics predict parallel universes?

02:20Here is where the Many Worlds Interpretation is key.

02:23In quantum physics, particles like electrons can exist in multiple states simultaneously.

02:29It's a phenomenon called superposition, made famous through Schrödinger's cat.

02:34An oft-repeated thought experiment,

02:36it states that if you close a cat in a box with a particle of radioactive material

02:40and a flask of poison linked to the decay of that particle,

02:44then the cat is, in effect, both alive and dead until the box is opened,

02:49and the state of the particle is observed.

02:51One interpretation is that a particle, any particle,

02:54is only ever what it is once we view it.

02:57One implication, then, is that there could be other states happening all the time

03:02outside of what we view, as though behind the scenes of reality.

03:06And this is the basis for Many Worlds.

03:09Many Worlds models claim that when a quantum particle collapses into a state,

03:13instead of discarding all other scenarios,

03:16the universe splits into multiple versions.

03:19In each new universe, the particle takes on one of its possible states.

03:23So, two possible outcomes will always create two universes,

03:26and so on and so on, for every single quantum state, ever.

03:30On a higher level, it then figures that every decision and random event

03:34should also spawn an entirely new universe,

03:37with a different outcome and timeline from then on.

03:40If you flip a coin, the theory suggests the universe splits into two,

03:44one where it lands heads and one where it lands tails,

03:47or maybe even three, with one where it bizarrely lands on its side.

03:52Apply the same thinking to every single random event in the history of everything,

03:57and you get an unfathomably large cosmos,

04:00with a potentially infinite number of alternate universes,

04:03with every possible scenario happening somewhere.

04:06While that sounds like science fiction,

04:08it's a serious theory that many believe offers an explanation

04:11for the peculiar behaviour of quantum particles.

04:14For some, it eliminates the wave-function collapse,

04:17the process where particles choose a state when observed.

04:20Instead, many worlds suggest that all possible outcomes do happen,

04:24it's just that they all happen in completely separate universes.

04:28Importantly, while it's a captivating idea, it's also currently deemed unprovable.

04:33Like most multiverse theories, we can't interact with the alternate realities that it predicts.

04:38But growing numbers do consider it valid for a lot of further research.

04:42So, watch this space.

04:44Look, I need to know what I stand to win.

04:47Everything.

04:49How's that?

04:50You stand to win everything, call it.

04:52How does cosmic inflation predict a multiverse?

04:56Here, we're jumping from the smallest possible quantities to immensely large objects.

05:00Cosmic inflation is a theory at the other end of the scale

05:03to describe the rapid expansion of the universe as we know it,

05:06immediately following the Big Bang.

05:08It's said that the expansion happened in the first few fractions of a second

05:12after the Big Bang moment, at a rate beyond the speed of light.

05:15All in all, it's a moderately successful theory

05:18and has been included in the standard cosmological model.

05:21Inflation does suffer from some issues, though,

05:24including that it's unclear where inflation ends.

05:27One solution to explain this is the bubble universe theory,

05:30otherwise known as eternal inflation.

05:33It's another that's only hypothetical at the moment.

05:35Broadly, it claims that the cosmic inflation

05:38suspected to be at the heart of everything

05:40didn't stop everywhere at the same time.

05:43Instead, it stops at different times in different regions.

05:46And when this happens, it creates closed-off, separate structures,

05:49aka bubble universes.

05:52Our home reality just might exist in one of these bubbles.

05:55But it isn't alone.

05:57Not by a long shot.

05:58So, the theory goes, if we were to break beyond our bubble,

06:01then we should find countless others like it,

06:04although their insides – their laws of physics,

06:07rules of time, their nature of reality, etc. –

06:10would likely all be very different.

06:13Outside of these bubbles, inflation continues eternally,

06:16implying new bubble realities are constantly being created as well.

06:20But for us, detecting bubbles is a serious challenge,

06:23primarily due to the inflating space-time

06:26that's separating ours from all others.

06:29Some researchers wonder if the cosmic microwave background radiation

06:32could provide an answer,

06:34perhaps giving some kind of indirect evidence of the multiverse

06:37via certain patterns or anomalies in the radiation.

06:40But as yet, it's another picture of what true reality might look like

06:44that hasn't yet been proven.

06:46Einstein says that time is not the same for all of us,

06:53but different for each one of us.

06:56Can black holes connect us to a parallel universe?

06:59It's no stretch to say there's nothing in the known universe

07:02that we know less about than black holes.

07:05Yes, they're spectacularly dense regions of space,

07:07with gravity so strong that nothing, even light, can escape them.

07:11True, many of them form from the remnants of massive collapsed stars.

07:15And yes, the event horizon is what we term the point of no return,

07:18the boundary beyond which our black hole is final.

07:21But once passing this point, it's wholly unclear what happens next.

07:25There's spaghettification, the somewhat vague and definitely terrifying process

07:30of stripping matter back down until it's just a long line

07:34of its most fundamental particles.

07:36And then, at the heart of a black hole lies its singularity,

07:39where gravity is infinitely strong,

07:41and all the laws of physics break completely.

07:44But broadly, that's as far as currently confirmed mainstream science goes.

07:48Nevertheless, in the significant gaps of black hole science,

07:52many have mused about potential routes to a multiverse.

07:55For some, the singularity could be crucial.

07:58At this most unknowable of points, it's before been suggested

08:01that it could actually connect to other points in space,

08:04perhaps with the black hole's theoretical opposite,

08:07a white hole, at the other end of the connection.

08:10But more than that, if we accept there being some form of hyperspace

08:13in whichever guise, then the singularity might just as well bridge

08:17other universes in a multiverse.

08:19It's an idea in part inspired by what's known as the information paradox,

08:23which questions where information goes after entering a black hole.

08:27There ought to be something very special about the boundary conditions

08:32of the universe.

08:34And what can be more special than that there is no boundary?

08:40Are wormholes pathways to a multiverse?

08:43Although not the same as black holes,

08:45or potential black hole-white hole tunnels,

08:47wormholes do often come up in similar conversations.

08:50And understandably so.

08:52Wormholes, also known as Einstein-Rosen bridges,

08:55are theoretical passages through spacetime.

08:58They're certainly considered to be physically possible,

09:00and are believed to represent a potential method for creating shortcuts

09:03between distant parts of our universe.

09:06It could be that wormholes actually represent the very best chance

09:09we have of breaking the local speed of light,

09:12thereby managing to achieve intergalactic space travel.

09:15But, in terms of parallel universes, it again makes just as much sense,

09:19particularly if you accept the Eternal Inflation-style multiverse,

09:23that a wormhole could punch through reality to link separate universes as well.

09:27Naturally, there is a major problem with the plan, however,

09:30as we've never actually observed a wormhole.

09:33And we can't seem to make one.

09:35Were one to appear and remain stable,

09:37it's thought likely that it would require exotic matter

09:40with negative energy to operate correctly,

09:42both of which we have very little understanding of.

09:45The more optimistic researchers, though,

09:47tend to point to the monumental jumps in knowledge

09:50our species has made in the past,

09:52as a reason to believe that wormholes might one day be realised.

09:56It wasn't so long ago that we thought the sun circled the Earth,

09:59or that we were wholly unaware of other galaxies in the wider universe.

10:03So, perhaps it's not quite so far-fetched to believe that at some point in the future,

10:07wormholes won't only be known, they'll be common.

10:10It's infinitely complex.

10:11They have access to infinite time and space,

10:14but they're not bound by anything.

10:16They can't find a specific place in time.

10:20They can't communicate.

10:22That's why I'm here.

10:24I'm going to find a way to tell Murph, just like I found this moment.

10:27How does string theory relate?

10:29As one of the leading contenders toward a theory of everything,

10:33could it be that string theory holds the solution for parallel worlds?

10:36In short, it aims to unite nature's four fundamental forces into a single, cohesive model.

10:41These are the strong and weak nuclear, electromagnetic and gravitational forces.

10:46Gravity is the weakest of all,

10:48which means that it's also the most difficult to incorporate into quantum mechanics.

10:52Which is why a working model of quantum gravity

10:55doubles up as all that's still required for a theory of everything to work.

11:00So, how does string theory propose to solve the riddle?

11:03It says that the cosmos' most basic building blocks aren't exactly particles as we'd usually imagine them.

11:09Instead, they're tiny, vibrating strings.

11:12At the smallest level, according to string theory, we don't have point-like particles,

11:16but instead one-dimensional strings.

11:19And it's the frequencies at which they vibrate

11:21which determines the particles and forces that we observe at our higher, macro level.

11:26One of string theory's most intriguing qualities, however,

11:29is its requirement for extra-spatial dimensions

11:32beyond the three of space and the one of time that we're all familiar with.

11:35Even at its most conservative, it says there could be up to ten or eleven in total.

11:40As to where they are, it's said that they're compactified, curled up

11:44and basically much smaller than we can detect or comprehend.

11:48And here's where various multiverse scenarios perhaps naturally arise.

11:52Some claim that it's in how these extra dimensions are compactified

11:56that could ultimately result in different types of universe.

12:00With each compactification corresponding to different rules of physics.

12:04And before long, the wider structure creates a vast, multiversal landscape

12:09commonly referred to as the string landscape.

12:12Now it's as though our reality is but one specific stitch

12:16on this new and rich tapestry of strings.

12:19And what's more, it could be that string theory has a role

12:22specifically to play in the bubble multiverse idea as well,

12:25with all of its extra dimensions wielding unknown influence

12:28over the processes of eternal inflation.

12:31Groupings of tiny energy waves bound together.

12:34By what?

12:35Forces of attraction strong enough to convince us that matter is solid.

12:41It's not my body passing through yours.

12:44What are brain worlds?

12:46To another offshoot of string theory,

12:48as brain worlds are another potential answer to the puzzle of the multiverse.

12:52Here the word brain is short for membrane.

12:55And in this context, membranes are multidimensional objects

12:59existing in a higher dimensional space.

13:02Some varieties of string theory lead us here,

13:04modelling our universe as a brain, a three-dimensional brain,

13:08embedded in a much broader structure known as the bulk.

13:12Now it's the bulk specifically that proponents claim

13:15has more than our four familiar dimensions,

13:18and again, potentially as many as ten or eleven.

13:21So, while we're confined to our home brain,

13:23there may be other brains existing alongside ours,

13:26each with the potential to harbour universes.

13:29Perhaps even with the potential to host multiverses of their own,

13:32of, say, the bubble universe variety.

13:35With brain cosmology, there's the potential to really up the ante.

13:39In some ways similar to the lower-level bubbles of eternal inflation,

13:43it could then be that these brains are right next to each other,

13:46in the bulk, and yet entirely inaccessible to us.

13:49It could be that they never meet, or link, or merge…

13:52although there are some theories that they, again,

13:55may wield indirect influence over one another.

13:58It's been suggested, for instance, that fundamental phenomena such as gravity

14:02could somehow leak throughout the bulk, permeating our membrane at least,

14:06and thereby dictating what is and isn't possible here.

14:10At the same time, there is discussion surrounding the follow-on question

14:13of what would happen if brains were to collide.

14:16Such collisions may give rise to new universes, or alter existing ones.

14:20Some cosmologists go as far as to suggest the Big Bang might have been a brain collision,

14:25spawning our realm alongside the untold others that could also be out there.

14:30This is still a topic of debate, and various, perhaps less radical ideas

14:35have been proposed to explain the Big Bang.

14:37There's arguably no strong evidence for any position, however,

14:40with the prospect of colliding brains therefore just as valid as any other.

14:45I have to show you that our friend has proven that time, indeed, has a beginning.

14:50Not only that, how the universe was born, and how it will end.

14:54Bang!

14:57Crunch!

14:58Do we have direct evidence for the multiverse in any form?

15:02Given all of the ideas that we've discussed, it's a kicker, but it's important.

15:06As things stand, we don't have any direct evidence that parallel universes exist.

15:11The multiverse and parallel worlds are much more theory than fact,

15:15but it's also a field of research that's really still in its infancy.

15:18As we've already seen, finding evidence for parallel universes is particularly challenging.

15:24The simple nature of alternate realities makes them inherently difficult to prove.

15:28By definition, they exist independently from one another,

15:32and therefore independently of literally everything we know.

15:35We're living, working, thinking, and existing in a separate and self-contained world

15:40as is every other world that may or may not be out there.

15:43It's unclear whether it would ever even be possible for contact between parallel worlds to ever take place.

15:50Even observation of them might be a step that's inevitably too far.

15:54All of the above applies for almost every conceivable parallel universe model,

15:59from bubbles to brains, quantum splits to pulsating strings.

16:04Nevertheless, many of the leading theories in support of parallel universes

16:08are based on strong scientific principles with intriguing possibilities.

16:13Optimists within the field may well hope that unknown future advancements in science and technology

16:19will one day make it possible to identify evidence.

16:22What's your opinion? Let us know in the comments.

16:26So, what next?

16:28Prove it.

16:30How do parallel universes affect our understanding of the cosmos?

16:35Philosophically, even contemplating parallel worlds requires a major shift in thinking.

16:40The concept challenges long-held, deeply entrenched views about who and what we are.

16:45Our traditional view of reality comprises space, time, matter and energy, all contained within our universe.

16:52But casting our net wider out into a multiverse suggests that for all the unknowns we already have,

16:58we've only ever been observing a tiny, tiny pocket of existence as a whole.

17:03In almost all proposed forms, an alternate reality could have different physical laws,

17:08different physical constants and multiple extra dimensions.

17:11Our safe and comfortable 3D plus time just doesn't cut it anymore, and the impact is profound.

17:17One of the most famous potential applications of the multiverse is that, in some versions,

17:22it could mean that there are multiple versions of you somewhere out there.

17:26So, how should we feel about that?

17:28Would the multiverse lessen the importance of our own lives?

17:31Or does it matter?

17:32Could it be argued that parallel worlds ultimately prove that free will is an illusion?

17:36Or are we still in control of what some may call our destinies?

17:40Looking deeper into parallel universes, it challenges any assumption towards us living in a single, objective reality.

17:47Instead, it thrusts us into an indescribably complex, multi-layered existence.

17:52And that's pretty exciting.

17:54Or maybe it's just quite scary.

17:57It's a probability storm.

18:00Every choice you could make, existing all at once.

18:03What's he saying?

18:04You're inside Schrodinger's box, and you're the cat.

18:08That doesn't make sense.

18:09What does the future hold for parallel universe research?

18:12To put it mildly, there is a lot that's in the pipeline.

18:16In the field of quantum mechanics, we're already seeing major advancements in quantum computing,

18:20which could enable us to control the subatomic realm like never before.

18:24In astronomy, our technology is constantly improving,

18:27with the James Webb Space Telescope recently becoming our single greatest and most powerful piece of observational equipment.

18:34It and its successors will provide unparalleled world of the universe, and perhaps beyond, for decades to come.

18:40Meanwhile, we have a growing network of particle accelerators like the Large Hadron Collider,

18:45which are continually revealing new bits of information about nature's most fundamental processes.

18:50Even higher energy colliders are reportedly coming.

18:53Which could probe even deeper, potentially taking us much closer to major advances in string theory or the brain world.

19:01What's clear is that right now, science is only just getting started.

19:05While science fiction has its fun dissecting all that could happen if parallel universes were real,

19:11science fact is busy chipping away at the concept in real life.

19:14But regardless of the specific findings, that can only be a good thing.

19:20Now it's your turn to deal with the consequences of your achievement.

19:28Parallel universes push the boundaries of modern science, encouraging us all to think outside the box.

19:34Quantum mechanics, cosmic inflation, string theory, and brain cosmology all incorporate it, in general,

19:41to potentially explain certain phenomena which might otherwise be unexplainable.

19:45But in the meantime, the entire endeavour encourages interdisciplinary, collaborative research.

19:51Thinking about parallel worlds is to blend physics, cosmology, math, and philosophy in a wholly fresh and unique way.

19:59It's big picture thinking, but on the grandest scale imaginable.

20:03And along the way, multiverse research is sure to trigger countless breakthroughs.

20:08But perhaps more than anything else, it's a line of thought that humbles us.

20:12Even the fact that parallel universes exist as an idea already represents a dramatic alteration to our perception of reality.

20:19If they ever were to be proven, then humankind will have truly entered into an all-new age.

20:25Steven.

20:30I'm glad I fell into your universe.

20:34So am I, kid.

20:37So am I.

20:38So am I.

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