Into the Impossible With Brian Keating - Michio Kaku Went Viral On Diary of a CEO; I Had To Fact-Check
Episode Date: June 14, 2026Physicist fact-checks Michio Kaku's biggest claims — quantum collapse of capitalism, Theory of Everything, black hole gateways. Does celebrity physics do more damage than good? Brian Keating break...s down Michio Kaku's viral @TheDiaryOfACEO "World-Renowned Physicist: They Are Lying To You About UFOs & Reality - Michio Kaku" https://youtu.be/opB7_JXL0LA?si=RzVyEgwKtQRzs9Ao I fact-check everything from quantum computing to black holes to the multiverse. Why quantum computers won't kill capitalism overnight String theory: candidate framework or confirmed Theory of Everything? "Read the mind of God" — Einstein's phrase or Hawking's? Tabby Star: aliens vs. dust, and why Kaku buries the retreat Black holes as gateways, wormholes as cousins of black holes, and what spaghettification actually rules out Celebrity physicists who present speculation as settled science set back the field more than any funding cut. CHAPTERS 00:00 Quantum computers and capitalism collapse 01:23 What quantum computing actually can and can't do 03:39 String theory and the Theory of Everything 06:16 Who really said "read the mind of God" 09:40 Tabby Star: aliens or something boring? 13:45 11 dimensions: prediction or math requirement? 18:19 Is dark matter made of string vibrations? 23:03 The multiverse bubble bath — poetry or physics? 28:39 Wormholes vs. black holes: not very similar 34:22 Simulation theory and Kaku's "Option Four" 37:37 Verdict: great communicator, bad epistemics ——— 📬 Get the transcript, fascinating bonus content, and my Monday M.A.G.I.C. Message: https://briankeating.com/yt 🌠 Have a .edu email and live in the USA 🇺🇸? You automatically win a meteorite: https://BrianKeating.com/edu 🔔 Subscribe: https://www.youtube.com/DrBrianKeating?sub_confirmation=1 🎯 Support Into the Impossible on Patreon — get my weekly M.A.G.I.C. Message, unfiltered bonus content, and live monthly Office Hours with me: https://www.patreon.com/drbriankeating ⭐ Join this channel for perks, monthly Office Hours, and your name in the Member Roster at the end of every episode: https://www.youtube.com/channel/UCmXH_moPhfkqCk6S3b9RWuw/join 📚 My books: Losing the Nobel Prize (memoir): http://amzn.to/2sa5UpA Think Like a Nobel Prize Winner: https://a.co/d/03ezQFu Focus Like a Nobel Prize Winner: https://a.co/d/hi50U9U Galileo's Dialogue (first-ever audiobook): https://a.co/d/iZPi9Un 🌐 More: 🏄♂️ Twitter: https://twitter.com/BrianKeating 📚 Substack: https://briankeating.substack.com/ss ✍️ Blog: https://briankeating.com/blog 🎙️ Audio-only: https://briankeating.com/podcast #intotheimpossible #briankeating #science #physics #astronomy #cosmology #podcast #universe #michiokaku Learn more about your ad choices. Visit megaphone.fm/adchoices
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Capitalism would vanish.
Society would come to a halt.
There'd be civil war.
This is a quantum computer.
It's a computer that computes not on transistors, which is old-fashioned.
It confused on atoms.
Welcome back to Into the Impossible, and this is a special sub-series called Keating's Razors.
Trying to understand which bold claims that are out there actually make the cut
and which don't survive the close shape.
Today's episode features past guest and physicist extraordinaire Michio Kaku,
a man not known for lack of hyperbole or humility and that comes to the physical universe.
And he was recently on Diary of a CEO, a business podcast.
But Michiou got a ton of attention for some of his claims.
The very first thing that really got my undies in a bundle was his discussion of quantum computing.
So I'll play the clip for you now.
The ultimate object beyond the transistors that you can compute with is the atom.
So these are called quantum computers.
Why are they powerful?
Because they compute not on transistors, they compete on atoms.
And you can't get much smaller than an atom and have stable matter.
But that's what quantum computers can do.
And they exist.
This is not science fiction.
They already exist.
So what Michio is saying is that a quantum computer, which is a real technology,
I just talked with John Martinez, who's working on a quantum computing company called Colabs,
and he won the Nobel Prize just last year for his work on macroscopic quantum phenomena,
namely in Joseph's injunctions and qubits and superconducting circuits,
which we use in all sorts of telescopes like the Simon's Observatory.
But real quantum computing is both a long way off, according to John and many others,
but it's far from doing what Michio just claimed it's going to do.
His takeaway is that quantum computing is going to directly lead to the abolishment and vanishing of capitalism,
and therefore society would come to a halt.
So that's the chain, Micho.
Quantum computer breaks encryption, and therefore capitalism is gone.
That's the first thing.
There's nothing in between.
We have to migrate to post-quantum contrography.
We have to go beyond that.
Now, so what does that mean?
Governments have to do this.
Banks have to do this.
They would have a five-alarm fire, according to Micho.
Not that there would be a challenging and possibly expensive transition, just capitalism gone overnight.
Credits roll and your bank account vanishes.
You know what else could theoretically break RSA encryption a sufficiently powerful classical computer
and a motivated group of white hat or black hat hackers?
We know about this.
They can also run Shores algorithm.
We've known about this since the 1990s.
The global financial system has been responding in a measure,
way, we'll deal with it when it's relevant. And by the way, NIST National Institute of Standards
of Technology has already standardized a post-quantum cryptographic algorithm to deal with just this.
It's not a problem. It's not a five-alarm problem. It's not going to cause society collapse,
let alone all of capitalism. Can you mention if economic systems depended on quantum
computing or any other physical laws? Like, oh, no, we can't do this. The second law of thermodynamics
prevents you from accessing your kids piggy bank. Okay? It's not going to happen.
And, you know, maybe if you watch Live Free or Die Hard too many times, you might come away with that impression.
That's maybe just a crime, but don't present it as physics.
Please don't present it as physics.
I'm a physicist working in the theory of everything.
What is the theory of everything?
An equation, perhaps, no more than one inch long, that will allow us to, quote, read the mind of God.
These are Einstein's words, the theory of the Big Bang, the theory of creation itself, the theory of everything.
Okay, now this is a big one.
Mitya says, I work in string theory, which is the theory that eluded Einstein in the last
30 years of his life, the theory of everything.
Well, there's actually a few problems here.
First of all, Einstein never worked on string theory.
It wasn't developed until the 60s and 70s decades after Einstein was already dead.
So the idea that Einstein was searching for this elusive theory that alluded him his whole
life is really not an incorrect assessment whatsoever.
string theory wasn't even on the event horizon on the day he passed away in 1955.
Second, string theory is not a theory of everything. It's a candidate for a possible unification
scheme, which could potentially lead to a theory of everything. But there's a big difference
between that and a patented theory of everything. A theory of everything would have to make
testable, falsifiable predictions. String theory makes none of these. And their proponents, the actual
people working on it today, unlike Micho, it doesn't work on. It did work.
on what's called string field theory, which he points out. He didn't invent string theory. Some people
give him credit for that. He worked on a branch of an allied field called string field theory,
which has not produced nearly the excitement or breakthroughs such as they are as string theory itself has done.
So a theory of everything at this point is a complete misnomer, let alone at the time when Einstein died
and inspired young seven-year-old Michi Okaku apparently to become a physicist. So I think it's just interesting
and it's fun to note, but he says, we think, as in we think it's the theory that alluded Einstein.
It is the theory of Einstein searched for. So he's already kind of hedging his bets, but it doesn't
stop there. He keeps going. So Michio is candid enough to say that we think we might find it as an answer,
but he doesn't actually follow up on what his original claim was, which is that Einstein thought it was
the answer to everything. That's the thing that eluded him. That's the thing that everyone wants to
defeat Einstein over and kind of claim his, you know, Dungeons and Dragons like hit points.
If you prove Einstein wrong, then you somehow become more famous than Einstein.
I'm not really sure.
But that take right there is a perfect microcosm for what's wrong with Michio's answers
in this otherwise, very entertaining interview with my friend Stephen Bartlett.
Okay, so the next example, again, is with the topic of string theory and Michio and every
physicist, idol, Albert Einstein.
And that's that the theory, if achieved, the string theory in Michio's case or the theory of
everything, would allow one to read the mind of God.
Now, he says these are Einstein's words, but Einstein never used that phrase.
In fact, it's Stephen Hawking who used those phrase at the end of a brief history of time.
He says, when we do understand string theory, we will then be able to read the mind of God.
which so interesting is that Einstein, nor Hawking, really believed in God. There are certain quotes
that we can say that Einstein would refer to things about God. God doesn't play dice as a famous one.
If the eclipse expedition 1919 turned out to be in violation of Einstein's general relativity,
Einstein said, I would feel sorry for God because my equations are right. So the mind of God is
sort of echoing theology, but not physics. So when you have a scientific hypothesis,
and dress it in a religious landscape, you make it sound inevitable. You make it sound like it's
already true, and that's the core bedrock of reality. We have no idea if there's a theory. We don't
even know if there's a grand unified theory. In other words, unified theories, I'll take a step back,
are joining together of two previously disparate theories. So electricity was once thought to be
different than magnetism. Here's a magnet. Behind me is a plasma globe. These are very different
phenomena, and they were thought to be completely separate until Maxwell unified electricity
and magnetism into one theory. Then later in the 70s, 60s and 70s, Weinberg, Salam, helped
to unify electromagnetism with the weak nuclear force, making the electrow weak force. That's where we are
right now. We don't have a unification of the strong nuclear force with the electrow weak force,
and we certainly don't have a theory that unifies gravity with those other three forces. So that would be
the theory of everything, and in a sense, to say that the theory of everything would be reading the
bind of God, implies that that is a done deal but for the actual equations. And it's completely fallacious.
We have no idea if there's even a grand unifying theory that unifies electricity, magnetism,
the weak force, and the strong force. We certainly don't have any proof that a godlike entity
would create a universe where there has to be a unification between all the four forces of
nature. So I have serious colleagues, people that I respect, physicists who object to this
framing very, very strongly. It doesn't, you know, really change.
anybody's opinion just because you stated, but the hyperbole behind it and the accentuating
that string theory is already sort of the solution, but for the fact that we haven't found
any of this pesky experimental evidence for it, is really skipping over, you know, the pages
to get to the end of the chapter of Revelation where God is suddenly allowing his mind to be read
like an open book. So I think Einstein was a genius, but he was also wrong about a lot of things,
and he was a human being like any other human being. As I point out in my
Second book, Into the Impossible, Think Like a Nobel Prize winner,
my conversation with Barry Barish, who won the Nobel Prize for the LIGO experiment
with his colleagues, Kipp Thorne, and the late great Ray Weiss.
There is no necessary belief that Einstein was infallible.
And in fact, Barry was pleased to learn when I had the conversation with him
four or five years ago over the first time.
So they're talking about in this clip here, they're talking about this star.
That's probably aliens.
Definitely, maybe, probably, maybe not aliens.
Here we go.
A story of one particular star that reduces in its intensity by 20%.
Yeah, there is a star that oscillates.
What does that mean?
So it drops by about 20%.
So it's reducing its light by 20%.
That's right.
How often?
You don't have to wait for centuries.
It's within a matter of months to years.
A star that reduces frequently reduces its light output by 20%.
Yeah, which is very unusual.
It's the only one we saw we've seen so far.
The theory goes that an advanced civilization will surround it with like a metal sphere to capture its energy.
Yeah.
And that would explain why we see a 20% reduction in the light output?
No, they think that it's probably an orbiting, an orbiting globe that eclipses the mother
star. Okay, so this one. This is a topic about Boyagen Star. So this is known as K-I-C-4-6-28-58-2, but it's really known as Tabby Star
in the popular imagination. It dims by 22% every now and that, which is an enormous diminution
of its luminosity. Now, to compare this to what a planet transiting as star causes, that's about 1 to 2%
dimming. It's 10 times bigger than that. So a planet cannot be the explanation. That's fair. But what
Kaku is not telling you is that there's no confirmed explanation. Shouldn't go to aliens,
you know, maybe ever, but certainly not as your first explanation, especially when the authors
themselves, including Tabby, have said that they have some conjecture as to what it may be,
but they're careful scientists. They're not being hyperbolic and trying to, you know, promote
something. So this we should say is that it's exciting. We don't know what it is. It could be
comments. It could be dust. It could be circumstellular matter. It could even be an undetected companion
star or even a black hole. Those are all super exciting and still in play. But Kaku jumps to the
sci-fi version that clearly he'd be pleased as Punch to be the first to kind of deliver to us.
That one that we basically know is wrong, which is that an advanced civilization would encircle
the star with a metal shell to capture its energy. Then he immediately says, actually, no,
they think it's probably an orbiting globe. Okay, so wait, this is an alien megastructure created the
concept created by my first guest on the podcast, Freeman Dyson, a Dyson sphere. Option A, alien
megastructure. Option B, really big planet. And Kaku presents option A and gets excited and then retreats to
option B after without acknowledging that that's a retreat. That's not proper way to communicate
scientifically. That's sort of magic trick, pulling you out of thin air, shall we say. So option B,
never mind. I actually work on the early universe and I built instruments to look at
with the oldest lights in existence.
And I like to say something, you know,
people ask me a question,
whether it's about climate change
or about, you know, free energy from, you know,
tabletop fusion.
I like to say, I don't know.
I think that's a great thing.
I think I'm going to do another reaction video
to a survey.
I just read about recently horrified me
where they asked astrobiologists,
do you believe in extraterrestrial life?
Do you believe in extraterrestrial technology?
And I thought that was an offensive question
that should never be answered by a self-respecting scientist.
I'll get into that in a future video
and a future Razor Keating's Razor episode.
Okay, now we get to one of Kaku's favorite hobby horses,
which we discussed on his appearance
on The Into the Impossible Podcasts four or five years ago,
and that's 11 dimensions.
He says string theory predicts 11 dimensions.
In other words, string theory says that we live
not just in a four-dimensional world,
but in a 11-dimensional world.
dimensional world, these other dimensions we cannot see, but we think that the universe coexist
with other universes.
Here's the problem.
First of all, there's no string theory.
There's many string theories.
As many string theories as there are models of inflation.
And Kako admitted that on my podcast.
He said it's not his burden to tell you which of the 10 to the 500 vacuous state we live,
and it's my job.
Unlike an electromagnetism, I don't have to tell you what ground state we are.
that it's directly enabled and encoded in the theory itself.
So string theory requires 11 dimensions to make the math work.
That's not a prediction.
That's a structural requirement.
And here's the bigger problem.
We have no evidence whatsoever for any dimension beyond the four three of space,
one of time that we experience.
Four dimensions we have zero evidence for.
None.
Not a single experimental or observational hint that the extra seven spatial dimensions
positive by string theory exists.
This isn't a minor caveat.
This is a huge part. This is the entire ballgame. You can't claim a victory when the theory
hasn't been verified with no experimental evidence for its biggest claim of all, which is the existence
of extra dimensions. We just sort of assume it. And actually later on, he talks about the fact that
the universe is expanding into the multiverse and the multiverse is made up of these extra dimensions.
This is just totally wrong. I'll add that clip and we'll talk about this because extra dimensions
are plausible as a theoretical idea.
And there's real reasons that physicists,
including some of the most eminent currently alive
and some that I've talked to on the podcast,
that they find these compelling.
But string theory believes that there are 11 extra dimensions
as if that's an established fact,
is dangerous and misleading.
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home? The multiverse believes that there are trillions of universes. It doesn't believe anything.
We either have evidence or we don't. Right now, we don't have any evidence of that.
We don't have any evidence, physical, hard evidence of aliens. And we don't have any physical,
hard evidence of string theories, extra dimensions. This doesn't mean we never will. And we can be
quite optimistic and hopeful. And we can even do more and design experiments to detect aliens
and to detect technology as people like Avi Loeb are trying to do, for example.
or go around it and make predictions
for experiments to find evidence
of string theoretic telltale relics.
We just don't have them yet.
String theory is something that you came up with?
I came up with string field theory,
which is one of the branches of string theory, right?
Okay, this one I want to handle delicately
because I respect Michio and I really like him personally,
so it's a little hard to criticize,
but I have to say.
String theory itself was first originated
in the 60s by Venetiano and others.
And later, it kind of lay dormant for a while,
but it really was picked up by,
in this field theoretic form
by Mike John Schwartz and Edward Witten in the 1980s.
Green and Schwartz solved the anomaly cancellation problem in 1984,
which was considered one of the greatest breakthroughs in theoretical physics.
Witten did enormous work in the mathematics,
and these are the people who built what string theory has become.
Some say it's become dangerous,
and it's sort of suck the oxygen, vitality, funding,
and young minds out of the field for, you know, three generations of physicist over the last 45 plus years.
Now, Kaku's talking about something separate, string field theory. So we benefit from things that we work on
that others have created and invented. I didn't invent the CMB. I work on the CMB. Now, Mityo Kaku is a
better science communicator than almost any human being alive, anyone who's been alive because he's
reached so many people, millions of people, including me, and he's influenced me. But,
there's a difference between being a pioneer in a field and being a popularized of it.
He did write papers in the 60s and early 70s on string field theory. They're not cited as
among the top most relevant papers even in the field of string field theory, but they were
some of the original contributions that he did make and no one can take that away from it. And
that's fine. And he should be proud of that. It also happens to be that there's no evidence for
string field theory. But it was an important step in the
intellectual development.
And I'm not to say you should only work on things that have experimental evidence.
We didn't have experimental evidence for the Big Bang for many decades after it was first
conceived of, right?
So should we have stopped working on?
Of course not.
Of course not.
I'm not saying that all.
But now we realize that there's another octave.
There's another layer even beyond what we see with the Large Hadron Collider, dark matter.
Dark matter is invisible matter that surrounds the Milky Way galaxy.
And we don't know what it is.
There's a Nobel Prize waiting for somebody who could figure out what dark matter is.
It's invisible matter.
Invisible matter that surrounds the entire Milky Way galaxy.
We think that we cannot yet prove that it's nothing but the next octave.
I was just saying, you know, quoting directly, we think that we cannot yet prove that
dark matter is nothing but the next octave.
We start talking about string theory and these poetic things as if it's already proven that
dark matter is a form of string theory or is a manifestation of string theory.
is impossible to let's slide. As much of that I like Michio. So let me translate that from
cuckoo speak to normal physicist speak. Okay, dark matter is the next octave of string vibrations.
He has no evidence for this. We don't have any evidence for strings. We don't have any
conception of what the string particle inventory and spectrum would be, let alone what octaves
they are and so forth. He even said we think and we cannot prove it. That means that's sort
of implied to me. Maybe I'm wrong. Maybe I'm too simple to understand it. That in the
the future, we will have it. We just don't have the technology right now. Not that it's impossible
epistemically. We can never know it. So Dark Manor is real. It seems to be overwhelming. Galaxy
Rotation Curves, some of which were discovered here by my late great colleagues, Jeff and Margaret
Burbage, when they were working with Beer Rubin, who was learning how to make galaxy rotation
curve from the spectra with Margaret, who is the observational astronomer. Gravitational lensing tells us
about dark matter, the C and B tells us about dark matter's existence, something is definitely there.
Now, there could be something different. There could be a modification to not just Einstein's theory
of relativity, but Newton's theory of universal gravitation. That could be wrong or need to be
modified on galactic scales at extremely low acceleration. See, if you have a large acceleration
and you have billions of years of evolution, things will be going way too fast. But if you have
tiny acceleration where we don't really know, because it's very hard to test in a non-gravitational
environment. You have to go into space, and even in space, there's microgravity. So how do you test
small gravitational field behavior at large, enormous scales? It's extremely hard to do, but
people like past guests on the podcast, Mordecai Milgram, I'll put a link to his episode up here,
they conjecture that gravity is wrong, and this has happened before, right? So Laverier predicted the
existence of Neptune based on the anomaly of the orbit of the planet Uranus, which was then
attributed to dark matter, you know, namely Neptune, which people could
see, and now we can see it, obviously. But it was an unseen gravitational pull due to ordinary
matter or particulate matter. And Laverier tried to solve for the anomaly of Mercury's procession,
that it doesn't come back to the same point, advances by 43 arc seconds per century. And he also
proposed a new planet there, a planet Vulcan, some planet unseeable inward of mercury around the
sun, and we can never see it even during eclipses. Of course, that turned out to be wrong.
Einstein had to modify gravity. So there's precedent for both particulate dark matter,
for modifications of gravity. There's nothing wrong with either one of those. They might both be
right. There might be some combination of the two. There's many different people working on,
but people claiming that dark matter is string theoretic vibrations as the answer to this
mystery is literally kind of double speak because he told you that it can't be proven yet. He already
stipulates that dark matter is the result of an octave vibration of string theory,
meaning that he explains something currently unexplainable
in terms of something completely unknowable string theory
and something for which we have no evidence.
So it's very frustrating when great communicator, heroes,
to many people then suggest things that will go down
in the public's imagination seen by 3 million people plus
this video already in just a week.
This is going to influence a lot of people
to believe things that just aren't verifiable.
And I think that's bad.
I think it's destructive to science.
And, you know, many people have criticized Mityo for his hyperbolic, you know, discussions of things.
I actually presented him with the Arthur C. Clark Award.
And I like to think we're still friends.
But that, you know, just because someone's a friend doesn't mean that they're immune from criticism.
I will criticize people for their ideas.
I'm not going to criticize them personally.
I wouldn't mention personal attack once in this video.
And I never will because I do have respect for what he does.
And going back to what you were saying about the bubble bath idea.
Right.
Then the question is, are there other stars?
Yes.
Are there other galaxies?
There are billions and billions of planets out there.
We think that the whole shebang is curved.
We're nothing but inhabitants on the skin of this gigantic bubble.
Now we're saying that maybe there are other bubbles out there.
A multiverse.
A multiverse of universes, parallel universes.
In fact, where multiverse has gotten into the literature,
comic books now referred to the multiverse.
Spider-Man and things like that.
So it's even part of the vernacular,
the common language of the average person
that we believe in paralleled universes.
So yeah, these parallel universes come from physics.
Okay, now we talks about something again in my wheelhouse,
the multiverse, the bubble bath of universes.
So what does a bubble bath of universes mean
in the context of string theory?
String theory predicts 10 to the 500th possible vacuum states,
or maybe maybe an infinite number.
each one could be a different universe.
Each universe can have different physical constants of nature, different gravity, different
light speed.
Eternal inflation could produce pocket universes separated by inflating space.
And that is the theory behind the multiverse.
Now, the multiverse is not proven by any means.
But here's the evidence for the multiverse.
It's actually equal to the evidence for string theory.
So there's nothing.
We don't have evidence that other universes exist.
We don't have evidence that string theory landscape is real.
The bubble bath is a metaphor for something that's exciting, that's interesting.
that's intriguing, that's a consequence of many theories of inflation, but it hasn't made a testable
prediction that we could falsify. We always have to think about that. Mityo maybe believes that the
elegance, the beauty of string theory manifests that it must be true, but that has never been true.
I mean, what's more beautiful than the orbits of the planet is for all the nested Pythagorean solids
as, or the harmony and the resonances and the notes of the Pythagorean musical scales?
and that was thought to be the orchestration of the inner solar system out to the planet Mars
by no less than the Titanic astronomer Kepler.
So they thought these things and the Greeks thought these things.
Does that mean that because they're beautiful?
They're right.
Of course not.
Nobody believes that.
And my friend Sabine Hansenfelder has made a lot of critics on criticism about string theory,
the multiverse and all sorts of other things.
And I think that this is the part that bothers me.
He says, we think.
He keeps saying we think, which is cautious.
But he really should say we don't know for sure.
there's a conjecture, we think that there could be a bubble bath of universe. It sounds beautiful,
sounds poetic. You can just envision me or you know, you or Stephen Bartlett, you know, flattering up,
right? But he presents this with the confidence of a weather forecast here in San Diego, right? You know,
we don't even have to look outside. We know what the weather is. So don't give the confidence
to it. I don't object to people discussing the multiverse. I do it too. I think it's a legitimate part
of science to think about it. But I object to you presenting it as, I object to people presenting it to you,
a layperson, perhaps, as established physics. That's very different, very different from what
responsible science, advocacy, and communication should be. And there's so much of this out there. I just saw
a video with Joe Rogan and a former astronomer, physicist from NASA, and they're talking about
quantum mechanics and faster than light communication, and I'll probably have to do a reaction
video about that, too. Again, I don't just, you know, cherry pick. I'm not punching down. You know,
it's hard to punch down to someone like Michi Okaku or Neil the Grass Tyson even. I'll push back on
everybody. Because I think it's important to tell the truth. That is, without the truth, we have
nothing. We have, we basically have a deformed society. Science has to be the ground truth.
You should push back, and I take push back, and I push back myself.
Comic books now referred to the multiverse, Spider-Man and things like that. So it's even part
of the vernacular, the common language of the average person that we believe in parallel universes.
So yeah, these parallel universes come from physics.
So he says the multiverse has now gotten into the literature.
Comic books now refer to the multiverse.
Spider-Man, the Spider-verse, right, Michio?
I laugh at things like that.
He's saying the multiverse is real.
Essentially, the reality, maybe some of the strongest piece of evidence is that it appears
in comic books and movies, actually.
Now, I understand what he's saying.
The multiverse has extended into the lexicon.
It's actually a problem for me to do things with LLMs, because not even if I want
to say, well, what does an LLM or AI system predict about the possibility of alternate universes?
Well, it'll scan all of the corpus of human knowledge and creation.
Because the word exists doesn't mean the thing exists.
I mean, there's many more things you can think about.
Unicorns, you know, dragons that fly through space.
What he does in that one sentence is kind of use pop science as an evidence, as a piece of
evidence for scientific claim.
That's not how science works.
I know he knows that.
I love Spider-Man.
I want to be Spider-Man when I was about seven years old.
But Spider-Man is not a cosmology instrument.
There is a cosmology balloon-borne telescope called Spider-Loo.
You can check on out.
Princeton University, developed by a colleague of mine from back in the Caltech era,
kind of like bicep times six, I think.
I think they should have made it eight biceps floating in space on a balloon.
And that's a really legitimate scientific experiment,
which may provide evidence that inflation is true.
then that may even provide evidence that the multiverse is well-motivated but not provable.
And that's the gateway called a wormhole, which is very similar to a black hole.
A little bit different, but very similar.
He says here, a gateway called a wormhole, very similar to a black hole.
A little bit different, but very similar.
Okay, they're not very similar.
They're completely different concepts.
Black holes are well-known solutions to Einstein's field equations.
We observe them.
We have images of their event horizon or really their photosphere.
We don't actually see their event horizon.
We can see their effect in gravitating systems nearby like stars and Andrea Gess,
past guest on the podcast, Ryan R. Gensel spoke about this in his conversation.
I'll link that here.
And so black holes are well understood.
I had Shep Dolman on a couple times talk about the Event Horizon Telescope.
And their existence of black holes is without doubt.
And we've also talked with LIGO pioneers and the collisions of black holes.
not only the existence of black holes, but black holes merging together produce observable signals
exactly in harmony with Einstein's relativity.
But wormholes, no, sorry, wormholes are hypothetical.
Their existence requires negative energy density, which is known not to be possible in the quantity
needed to keep a macroscopic wormhole open.
I've talked about this with Juan Maldesina just recently.
Link that here.
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In the show notes below.
And I also had him to deliver a technical lecture here and I have that on my other channel,
Keating Experiments, where I put stuff that may be less of interest of the general
public, but you can find a link to the channel in the show notes below.
And his talk about wormholes and the thermodynamics and so forth is very interesting,
but even one admitted to me, there's no possible way that we understand right now where
you can have a wormhole.
It requires these very different points in space time to be connected, but there are also
very different equations than what governs the behavior of black holes.
To call them very similar is completely wrong.
Now, they might be cousins, but they're basically strangers that have the same last name
in a sense. The whole part is correct. So Kaku is not wrong that wormholes can appear
theoretically, but he is presenting it as if they're actually plausible, legitimate, proven
solutions. They're absolutely not. They're completely in the frontier of speculation. That's why
they were generated by Kip Thorne as solutions for fictional movies like Contact and Interstellar.
And I made a joke recently that I think that Interstellar is less plausible scientifically than
Project Hail Mary. Because of these things,
things such as the near impossibility of creating a wormhole with to redo time travel you need to
create a wormhole in advance of and put the destination somewhere that you want to go and then somehow
get back to the original starting point at the origin and not violate causality and not die yourself
and you know kind of build the wormhole before you need it so to speak and that's completely
impossible by laws of locality and causality so this I think is pretty pretty risky
business for Michio to get into, but as this is one, he's quite good at explaining it. And that's
almost the problem. He's so good. It would be fine if he wasn't so damn good at doing what he does,
but he presents it as if it's an open and shot case. So here's another one, the Black Hole Gateway.
If I would take a guess, I would say that it's an entrance. It's a gateway, perhaps to another
universe. Okay, the Black Hole one. This is the one that got a lot of attention.
sending me this clip and partially the reason I did this because I got so many questions about this.
He says, if I were to take a guess, I would say that a black hole is an entrance. It is a gateway,
perhaps, to another universe. He even added, if you know what's inside the black hole, you'll win a Nobel Prize.
So what he's acknowledging in the same breath is saying that it's a gateway is that nobody knows
what's inside of it. But it gives you the answer anyway. So it would be fine if he was a science fiction
author. If he's Andy Weir, you know, or Chris Hadfield writing some science fiction book, hard science
fiction is great, or Carl Sagan. But if you fall into a black hole, the title forces, the difference
in force between your feet and your head, for example, will spaghettify you at the subatomic level
before you reach the singularity, which would be the gateway to another dimension, according to
Mitchell. So if you survive the journal, you can't go through the portal. You'd be disrupted
and destroyed long before you got anywhere interesting. So even if there is something on the other
side, a white hole, a baby universe, a quantum firewall, you're not going through it. You're going to be
incinerated, ripped apart in transit on the way to your destination from which you cannot escape.
All roads, once you're in the event horizon, lead to the singularity. As Jen 11 pointed on the
podcast, time becomes space, and space becomes time, and that you cannot avoid your ultimate
destination, the singularity inside of there. Now, he knows about spaghettification. He's mentioned in a podcast, too.
He studies physics, but when the camera's on, the nuances get diluted. And I, he doesn't, and
I think it's possibly difficult to imagine how we could actually promote this idea other than
trying to make sensationalism.
And that's what I don't like.
Science is fascinating.
And I almost don't listen to or read much science fiction because that science fact is so interesting.
Nonfiction is so interesting.
We don't need physics of Star Trek with a tenure track.
We need honest to goodness exposition of what we know and what we do not yet know.
And I think that's even more fascinating than anything.
You know, you look back Galileo, Einstein.
They almost did none of this.
Okay, they weren't maybe science popularizers back then.
And so the science popularizers who will say
or something in order to generate interest or hype or whatever,
it may have all started with Hawking come to think of it.
Well, my personal point of view is there's option four
that you don't mention.
And option four is that there is no simulation at all.
That all this talk is nothing but fairy tales.
Okay, the last one.
Simulation theory. This is the one that frustrated me the most, I think. Not because I'm a simulation
truther, I'm not, but I think the way that he handled it intellectually was not in the most
appropriate way, and I think it's worth talking about. I've had Nick Bostromen many times. His
simulation argument is one of the most carefully constructed philosophical arguments in modern
science. It's not a guess. It's a logical structure. Here it goes. It has these three premises
underneath it. Number one, almost all civilizations that develop the capability to run
ancestor simulations go extinct before they run them.
So we can run ancestor simulations right now.
We can simulate, you know, the time of civilization.
There's some game that I remember from the 80s or 90s, rather,
where you start out as like bacteria culture,
and then you go up to evolve to intergalactic colonization.
But those are ancestor simulations up until they become future simulations.
Okay, so part one.
Ancester simulations can be developed,
but they go extinct.
Typically the civilizations go extinct before they can run them.
Number two, advanced civilizations that could run simulations have no interest in doing so.
That's a possibility.
So we could just say, oh, we don't know.
Number three, we're almost certainly in a simulation because if simulations are being run at all,
there would be billions of simulated universes and only one base layer of reality.
And that makes it statistically overwhelming that we occupy a simulated rather than base universe.
Now, Kaku says, I opinion number four.
There is no simulation at all.
That's not a fourth option.
That was just calling number two, number four.
and having the same choice with the Kaku labeling.
And his reason for dismissing Bostrom was kind of a little bit to meritous.
He's saying the universe is based on probabilities, not on simulations.
I don't know what that even means.
Simulations are probabilities.
There are probabilistic.
That's the whole point.
You add in some randomness to the simulation.
Otherwise, you know exactly what's happening.
And that's forbidden completely, even at the quantum level, right, by Heisenberg.
So that's the entire point of a simulation, probability distributions.
and we test the veracity compared to what the observations do.
Now, we don't have observations of the simulation.
We have observations of multiverse.
We have observations of string theory.
So it's very hard to do these things.
But in the models where we do have simulations, even at the level of QCD, we have the
QCD vacuum.
That has been used as evidence against the simulation theory because the required computation
power scales as very large power of the dimensionality.
And so therefore, if string theory were true, maybe he's consonant with his belief that
string theory is true and already true, without an answer.
evidence, which is a dangerous proposition to accept, but scaling is very high power of
dimensionality would make string theory even more computationally expensive than a good,
old-fashioned, four-dimensional three-d-space plus one-time dimensional universe that we know we live
in, at least on the macroscopic scale. Doesn't mean he's wrong, but he doesn't refute
Bostrom. He just announced that he disagrees and then conjecture something that Bostrum already
came up with. So you know what's wild? The multiverse in which Chakou spent 20 minutes describing
as likely real has exactly the same epistemological status as the simulation hypothesis.
as I said. Neither has been experimentally tested. Neither is really falsifiable either.
But Kakud will tell you that the multiverse comes from physics and simulation theory is fairy tales.
Not the only difference is the one that he finds himself in is the more comfortable epistemic position to be in.
That's not science, that's preference. And as my Latin friends say,
degustatum known as disputandum, taste is not disputable. So taste is not disputable. I'm not
criticizing Michio for his taste, that he prefers string theory, prefers the multiverse. He does
doesn't prefer the simulation iPod. That's fine, but stated clearly. Okay, so let's wrap it up.
There's about 12 times, maybe 13 times that I caught Michio, a little bit over his skis,
and look, again, I want to be very sincere. I like Micho a lot. He's been around for decades,
and he keeps getting better and better at what he does. He is one of the greatest communicators,
not only today, but has ever lived. He's done more to excite people to get into this field of
signs than any other person maybe alive, maybe with the possible exception of someone like Carl Sagan.
Well, Carl Sagan is not a lot, but of Neil de Gress Tyson, right? Let's be honest. He's an incredible
intellect. He's just infectious curiosity and clever. And so I don't want to do that. I read his
books when I was a kid. He came to speak. I've heard him speak many times. And I've presented him
with awards for the very foundation whose namesake, you know, started this whole journey of
podcasting for me. So the issue is not at all. He's not a bad physicist. He's a good physicist. He's a good
communicator and emissary of science. But when you're a celebrity, people emphasize your weight.
That's why the title of the podcast with Stephen emphasizes his credentials as a top physicist,
not as a top communicator of physics. Now, when you do that, you have an obligation to present
things as established science only when and if they are and not talk about them in hyperbolic terms
when there's either no evidence or evidence against them, as may be the case for some of these
things. So presenting it as settled science does a disservice to real scientists working in the
trenches that are trying to search for these inevitable truths. Now, we may get there, we may not.
The beauty of real science is that it's real, and we can say, I don't know, we can be humble.
You have to be simultaneously humble and a little bit arrogant to think that you can confront
Mother Nature with her infinite arsenal of arrayed forces against you. We'll never win science.
But you can win the little battles in science.
But part of the way you win is by recruiting people in an honest way and you don't mislead people to get them to join your battle.
And so I think that that's important.
I'm not saying he lied or misled anybody intentionally.
I think he's truly convinced that these things are correct and that his position is right.
I don't think he would ever meaningfully mislead anybody in the public.
He's too nice of a person to do that.
So this is just out there case he sees it or in case you saw the video, as many millions of people have and will.
the future. Just a little bit of a sidebar to be cautious and because I think the truth itself
is interesting enough. And I think that this is an incredible time to be alive. So much is exciting.
So much is on the cusp of revolution and revelation. And we can do that, but we have to do so
honestly and not in the interest of dressing up the characters. They're already dressed up.
We already have the finest script ever devised. Mother Nature gave us a script. We don't need people
acting. We need people telling the truth about what the science is telling us, what it cannot
yet tell us, and where the future may go. That's what makes science so interesting. So that's my rant.
That's my Keating's Razor. And we'll see you in the next episode. Are you one of those media
strategy people clicking through slides, scrolling spreadsheets? Yes? Good. This is for you. Because on
Spotify, there's an audience that's different. Locked in. Loyal, invested. They're called fans.
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