StarTalk Radio - Cosmic Queries: Until the End of Time, with Brian Greene (Re-Release)
Episode Date: July 4, 2023Neil deGrasse Tyson, comic co-host Chuck Nice, and theoretical physicist and author Brian Greene answer questions from our fans about string theory, the fabric of spacetime, interstellar travel, free ...will, and the meaning of life.NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here: https://startalkmedia.com/show/cosmic-queries-until-the-end-of-time-with-brian-greene-re-release/Thanks to our Patrons Jamie Boneleye, Evan Blackburn, Matthew Pounsett, Chris Behrensmeyer, and Brett Armstrong for supporting us this week.Image Credit: ESO/IDA/Danish 1.5 m/R.Gendler and J.-E. Ovaldsen. Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
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Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
StarTalk, Cosmic Queries Edition.
Neil deGrasse Tyson here, your personal astrophysicist.
And as is not always, but most of the time chuck nice hey co-host
oh good to be here we just fist bumped in front of our guests yes we did how about me here we go
now we'll do a three-way fist bump community property of fist bumps right brian green is
our guest that's right we're doing cosmic queries until the end of time I didn't just pull that out of an orifice. I was going to say.
It is actually the subtitle of this book.
That's actually the title.
What's the subtitle?
That's the title.
What's the subtitle?
Mind, Matter, and Our Search for Meaning in an Evolving Universe.
Nice.
That kind of means everything, right?
It is.
But doesn't the universe automatically elicit questions of what is my purpose, my meaning?
Why?
That's why we have him here to talk about this for the show.
Oh, cool.
I thought we were doing a cooking show.
So we solicited questions.
Yes, we did.
About this book.
I don't know if people read your book already.
Is that possible?
It's conceivable.
I'm looking at the questions.
I just know he's got a fan base out there.
He does.
And there is several of the questions of people who have already, they say, in your book.
Right, okay.
So, Brian.
Look at this one right here.
Your book, Until the End of Time, brings me to the conclusion.
Wow.
Look at that.
So, there you go, man.
All right.
So, this is the Venn diagram that overlaps his fan base with our viewers.
There you go.
Because we solicited it from our viewers.
For your base.
Yeah, great.
There you go.
All people, your people.
I love that.
All right.
So, Chuck, you got the questions.
Just to remind everybody how this works, it's Cosmic Queries.
And these are solicited from our fan base.
That's right.
I have not seen them.
Certainly our guest hasn't.
That's right.
Chuck, you might have seen them.
I've read them before.
And Brian Green and I have
very strong scientific
overlap. But we're gonna
get his view on this and I'll just
sit back and listen. And if he's full of shit,
I'll tell you. No, you won't. His guy will not
sit back and listen. I've never
heard that before.
That was funny.
Plus, I should have said it differently.
No, you won't.
Brian Green knows almost all the astrophysics I know,
and I only know some of the physics he knows.
Nice.
So he can take my physics to new places.
That's very gracious.
I don't know if it's true, but it's very gracious.
Thank you.
And he's a good mathematician, too.
All right.
Yeah.
I mean, I'm going to say yes to that,
because he's an astrophysicist
and a physicist math is a language of the universe right yeah in which he is fluent very cool delighted
to have an all-time friend and colleague all right well let's do this and as usual we always
start with a patreon question a question from our Patreon patron. Oh, wait, wait, wait. Excuse me.
Go ahead.
Brian Green is professor of physics
at Columbia University.
Wow.
And also joint appointed
in the Department of Mathematics.
That's great.
And he and his spouse
co-founded the World Science Festival
here in New York City
every year where science and art
and music
come together to celebrate science.
Wow.
That's right.
He does this.
That is incredible.
He's not just some person
who's sitting between us right now.
Right.
This is Brian Green.
I mean, he is still that.
He's still...
I didn't want to undo the fact
that he's a person sitting between us.
Let's not demote him from personhood.
And I think this is his fourth book.
Yes, right.
Okay.
And his first book that anyone knows about was a mega bestseller,
which was?
The Elegant Universe.
The Elegant Universe.
And he's one of our leading string theorists,
and this was a way to share not only the frontier of his research
with all the rest of us,
give us a sense of hope that maybe one day we'll understand everything. Cool. Or not. Or not. a way to share not only the frontier of his research with all the rest of us,
give us a sense of hope that maybe one day we'll understand everything.
Cool.
Or not.
Or not.
So that was a mega bestseller.
And we shared publishers back then.
We had the same publisher.
Oh, Norton?
WW Norton.
Then he got so famous, he found another publisher.
And then he published another book after that.
It didn't do as well as the first book.
Okay?
I just want to just hang some publisher.
You're just giving your publisher some cred right now.
Dirty laundry out here. There you go.
Okay.
Brian Green, Alfred Knopf, publisher.
Let's do this.
All right, here we go.
As I said, we always start with a Patreon patron
because they give us money.
And this is Michael Tobias.
He says, hello, Neil and Brian. I often wonder how
far we will journey through space within our lifetime. Will we be able to achieve interstellar
travel or will the human race go extinct before we have the opportunity and technology? Now,
he started off with our lifetime, but I think he means the lifetime of the species of human beings. Because our lifetime,
the answer is no.
And I am not an astrophysicist
at all. Okay, we're done with that.
No, but within the lifetime
of the human species. First of all, what is the
lifetime of the human species? What would that be?
A few million years. Well, that's a guess, right?
If you look at the historical
trend. If you look at the
life expectancy of mammal
species yeah right i think one in three million years somewhere yeah but we're so much special
right i mean we have this thing on top of our head that able to figure things out uh so so either that
is going to be our own destruction because we can build things that can kill ourselves or we'll be
able to figure out a way of living beyond the traditional lifetime of many species. So, unclear.
But if you take... But let me answer that question.
Yeah.
There's what's possible in the laws of physics,
and there's what's within reach with our engineering.
Absolutely.
So, give me your read on that.
Well, the laws of physics constrain any speed of any spacecraft
traveling through space to be less than the speed of light.
So, if you're not going to play games with imagining that,
we can actually warp the fabric of space.
Stop playing games, that's real.
Yeah, well, you know,
it's unclear that we'll be able to achieve that.
It's real in every movie I've ever seen.
I agree, I agree.
But taking the speed of a craft
to be less than the speed of light,
then, I mean,
achieving great space travel is challenging, right?
Now, the weird thing is, because time slows down
when you have a spacecraft or a clock of any sort that's in motion,
you could have a spacecraft going out near the speed of light,
and we on Earth would watch its clock,
and its clock would be ticking off time so slowly
that to the person on the ship,
they would be able to go much further than we would think they would be able to
if we didn't take that into account.
Right.
So, you know, we could send, you know, some intrepid Voyager out into space,
and they could go—
And near the speed of light.
And near the speed of light, and they could go arbitrarily far in their lifetime.
In their lifetime.
Yes.
Then they come back home, and everyone would have forgotten about them
because hundreds of thousands of years would have passed. Or millions or billions of years. You're absolutely right. Yes. Then they come back home and everyone would have forgotten about them because hundreds of thousands of years would have passed.
Or millions or billions of years.
You're absolutely right.
Right.
So that's not what people are imagining when they're thinking of space travel.
No.
I mean, so.
But it really matters, you know, if we were to take, you know, a group of our species and send them out into space, it really would be within their lifetime that they'd be able to, according to laws of physics, go arbitrarily far.
Right.
And so it's kind of, now you're right, the people back on Earth, they perhaps would be long extinct.
Wow.
Imagine, you come back and your species isn't even around.
Right.
And the roaches took over.
And the rats.
Right.
And they say, wait a minute.
We didn't come back.
And there's a museum that the rats have, and they're the skeletons of humans there. Right. That they say, wait a minute. We didn't come back. And there's a museum that the rats have,
and they're the skeletons of humans there.
Right.
That long ago has terrorized the...
Or they could even have, you know, an homage,
an exhibit to the spacecraft that left, you know,
100,000 or a million years ago.
And you can sort of see the origin of your own trip.
Man.
That's kind of cool, though.
I mean, you could actually...
So...
Okay, so you can't,
but no one else can really participate in that.
Unless they're part of the literal journey.
Unless they're part of the literal journey.
Right, right, right.
So now what about this,
in terms of when you say
you put these people on a ship, all right?
So you take a colony of people,
you put them on a ship,
and now they go,
and they're looking for some place to live
and now you're just seeding the universe, you know,
or at least another part of our galaxy
because you can't really say the universe, you know.
The Milky Way.
The Milky Way, you know, because we're not going to,
how long would it take us to get out of the Milky Way?
Millions of years to the nearest galaxy.
There you go.
So, but with that.
Sorry, sorry. Well, hundreds of thousands, you know. Let's to the nearest galaxy. There you go. So, but with that... No, sorry, sorry.
Well, it's hundreds of thousands, you know,
hundreds of thousands light years across.
Let's get the numbers right.
So, our galaxy is about 100,000 light years across.
So, if we watch you travel at the speed of light,
it'll take us 100,000 years to observe that.
But you could live an arbitrarily short amount of time,
depending on how fast you're going.
So, that being said,
you, in principle, could go to the Andromeda Galaxy
two million light years away.
Right.
We are long dead here, maybe.
And unless we're as smart as Brian wants to believe we are.
And so, yeah.
So you could go to another galaxy.
But in practice, you want to pass by stars,
not the void of empty intergalactic space.
Exactly, right.
Yeah, you want to go someplace where there is something.
But Brian's point that I take to heart is when I think of these ships, I think that
they're generational ships and they have to be really fertile people, make babies, babies
grow up.
But what's odd is you will be giving birth to children who will never have known Earth.
Yeah.
And that's kind of diabolical to me because they would not have had free choice
to have taken that trip.
Do you have any moral sense of that?
Well, you know,
I don't think any of us have free choice or free will.
So if you want to get into that part of the conversation.
That's another thing.
Wow.
You know, we can go there.
Okay, let's just pull out two of those worms from that can.
Wow.
Holy moly.
All right, we'll get back to that.
I can't. Yeah, that's a big one right there. I don't have a certain bandwidth. Okay. All right, we'll get back to that. I can't.
Yeah, that's a big one right there.
I don't have a certain bandwidth.
Okay.
All right, so let me ask you.
I'm glad to be reminded
that you can send
a colony of people
and they can get anywhere they want
in their lifetime
provided they travel fast enough.
So now let me ask you this.
Let's say they want to get,
they're going to go someplace even further, right?
We're talking about true interstellar travel, right?
Intergalactic.
Intergalactic.
Because they're going to another galaxy, all right?
And then they're coming back, okay?
And they have kids and kids.
What would that do?
And maybe this is outside of your purview.
I don't know.
What would that do to us as a species?
Would they be that much different
from not having any of the effects
of being on this spinning rock
going around this little teeny star
that we live in right now?
That's beyond my purview.
No, I would say that it is possible to speciate.
One of the ways you split a species is you strand a variety of yourself in a place,
and then there's no more communication.
That's why every freaking animal looks so different in Australia, okay?
But you still need sufficient time during their isolated periods.
And in this case, it could only be even a handful of generations, right?
But there still would be generations,
as you said, who would never have experienced life on
planet Earth. But you also need pressure
to select against some features
and promote others. So
that those features then become something
else that are not
recognizable to where you came from. Okay.
I got you. So you need that. And if
that ship is exactly the environment that Earth has always been and always will be.
If you create 1G and you do all this stuff.
Yeah, yeah.
You're not really creating a circumstance where there's a pressure to.
A pressure.
But if you create a reality show where it's Survivor on the ship, right?
And then you have artificial pressures.
Yeah, you could drive the species into some different place.
That's kind of wild.
Yeah.
I think we just came up with. So it wouldn't be natural selection, it would be artificial selection. Yeah, you could drive the species into some different place. That's kind of wild. Yeah. I think we just came up with...
So it wouldn't be natural selection.
It would be artificial selection.
Yeah, that's right.
You just inject them from the ship and they...
All right.
We're going to space you.
All right.
Next question.
Let's do the next question.
All right.
Here we go.
This is Cheyenne Leo, who is also from Patreon.
Cheyenne Leo.
That's a nice name.
I like that.
Hello, Mr. Green. I hail from Canada and Cheyenne Leo. That's a nice name. I like that. Hello, Mr. Green.
I hail from Canada, and I love your books.
I've been wondering lately, what is time made of?
I might be a little out there,
but I was thinking that it must be made of something
because presumably it was created in the Big Bang
and it interacts with things like light and gravity.
Light takes time to get there. Gravity
slows it down in extreme circumstances, et cetera, et cetera. So if it can interact with other forces,
shouldn't it be made of something? I love that question. It's a great question.
Yeah. When is something more than just an idea? When does it become a thing?
Well, this is an idea that is starting to become a thing right now. So it's certainly
the case that the intuition of the question is right on target. When we look at ordinary material
objects in the real world, they are made of stuff. They're made of molecules, made of atoms,
made of subatomic particles. Could that idea be relevant for space and time themselves?
And people have thought about this for a long time, but recently there have been developments in a variety of fields string theory being one of them where we're starting to catch a
glimpse of what the ingredients of space and time might actually be and in fact there's work that's
being done that shows about a time particle not really a time particle per se but it's easier to
talk about this in space even though space and time are really the same thing. But we have some evidence that space itself
may be stitched by the threads of quantum entanglement.
So this idea of quantum entanglement
that links together distant objects
in a way that makes it appear as though
they're right next to each other
in terms of their physical properties,
it may be that the threads of quantum entanglement
are the stitches in the fabric of space-time itself.
Is this where you get to the idea that in the distant future, where dark energy accelerates us ever greater,
that it might accelerate us faster than quantum phenomenon can keep up, creating a tear in the fabric of space-time?
Yeah, and in fact, you don't even need to know about the ingredients in the fabric of space-time to come to that conclusion.
You didn't even pause when I said that.
That means it could really happen.
Yeah, so the idea that the dark energy
might get stronger over time.
So right now, we all know that there is dark energy
pushing the distant galaxies away.
We all know.
Yeah, we've spoken about this before.
We actually have.
We actually have spoken about this before.
Exactly, exactly.
Right, so, but it's possible that that dark energy gains strength over time. We actually have. We actually have spoken about this before. Exactly. Right.
But it's possible that that dark energy gains strength over time,
which means that it would not only drive the distant galaxies away ever more quickly,
but it would start to drive even planets away from their stars.
And it would even drive electrons away from the nucleus of atoms,
which would rip matter apart.
And yes, you're right.
Depending on the very nature of space-time,
it could be that this dark energy growing over
time might sunder space itself,
might rip the fabric of space apart.
That's amazing. You're talking about the actual
tearing of the universe itself. I don't even want
to think about that. Now, I should point out that
since you brought up the tearing of the fabric of space,
a paper that I wrote with a couple of colleagues years
ago was the first mathematical demonstration
within string theory that the fabric of space can rip apart in a manner that would not yield a catastrophe.
The fabric of space would repair itself and it would just be a new behavior within the repertoire of things that space can accomplish that Einstein would never have thought of.
But Einstein didn't think about quantum mechanics and the general theory of relativity.
And when you unite them, as as string theory does you get new things
that space and time can do
and one of them
may be tearing apart.
And it repairs itself.
And it repairs itself
so it may not be
as catastrophic as you think.
And ointment for that.
Ointment.
We have a salve.
Put some ice on it.
But actually
it's not so much a salve.
The strings in string theory
can surround the tear and form more of a band-aid.
So it's more that the strings form a band-aid that protects us from the rip in the fabric of space.
But see—
And there's math behind this.
It's not like a crazy idea.
You look very skeptical at this.
I did, too, because that sounds eerily like—
Just because there's math—
Don't hide behind this math behind it.
No, no, I'm not hiding.
I'm just trying to let you know.
No, I'm just saying math can talk about some crazy stuff that had nothing to do with reality, and you know it. Don't tell me there's math behind it. No, no, I'm not hiding. I'm just trying to let you know. No, I'm just saying math can talk about some crazy stuff that had nothing to do with reality,
and you know it.
Don't tell me there's math behind it.
Of course.
So therefore—
No, no, but this emerges right from the most natural interpretation of the equations of
string theory.
So I'm not standing on my head to make this happen.
Okay.
Okay.
No, that's an important point.
It is.
Because there's a lot of stuff that we think about where you have to go out in left field
to try to get the explanation.
But if this flows out of your stuff naturally, it's a beautiful thing.
Very cool.
Can I tell you what else happens?
Oh, please.
Black holes shrink down to a very small size, very small mass, and they transmute into elementary particles.
So black holes that you normally think as being kind of this big thing out in the cosmos,
different from the fundamental constituents of matter, when space rips,
the process that repairs it
involves black holes turning into particles.
See, now he just made that up.
Yeah, but...
No, you had me until...
I was going to say...
...the universe repairs itself.
I don't make that up.
No, no, no.
No, black holes are the doctors and the nurses.
No, I'm sorry.
No, you're full of shit now.
Oh, man.
Oh.
All right, but no,
we got to wrap this segment.
Oh, we got to wrap this segment?
No, I'm sorry.
We take too long
to answer these questions.
No, no, we're not.
This is great stuff.
When we come back.
Oh, I wish we were here
every day, Brian.
Oh, that was amazing.
For Cosmic Queries.
Until the end of time.
Questions from the heart of the cosmos.
When we return.
Hi, I'm Chris Cohen from Hallward, New Jersey, and I support StarTalk on Patreon.
Please enjoy this episode of StarTalk Radio with your and my favorite personal astrophysicist, Neil deGrasse Tyson. We're back.
StarTalk.
Cosmic Queries.
We've got Brian Green here.
Yes.
The one, the only, longtime friend, colleague.
Love this man to death.
He's been a friend of StarTalk from the beginning.
From the beginning.
Absolutely.
This is not his first rodeo with us here.
So, Brian, congratulations on your fourth book.
Thank you.
And got a great write-up in the New York Times.
Very enthusiastic write-up.
And even when he was criticizing it, he was praising it.
Yeah, right.
It's like, oh, it got complicated, but it needed that.
And I kind of liked it.
And it got me into it. You know, it needed that. And I kind of liked it. And it got me into it.
You know, it was like one of those kind of things.
So who actually reviews your books?
I'm serious.
Like, you two guys, you write these books.
Who is it that sits down and says, okay, let me go through here and see Brian's mother?
That's so funny.
She's an intermittent employee for the New York Times.
Yes.
Son, I have to tell you, I don't know about this whole thing about black holes and particles.
So, no, really, who is it?
I would say there's not a lot of people that can do that.
They're science editors.
Oh, okay.
That's their job.
All right.
If they can't handle it, then they don't review it.
Plenty of newspapers don't review science books.
Oh, actually, the number of reviews of science books is going down
because newspapers are really winnowing the staff of people who do it.
They're cutting their staff so they can't afford it.
Wow.
So this, just to give him credit because he's in the club,
Dennis Overby, longtime science writer and editor.
One of the best, really.
For the New York Times.
And he leans cosmological, although when we demoted Pluto here,
he wanted to dip into that.
When I said, this is not your beat, you know, this is too nearby for you.
But I think he wanted some Pluto street cred.
Right.
So he did a little Pluto article on our demotion.
And was he for or against your postulate?
He was antagonistic.
Oh, okay.
But anyhow, he's a long time editor and he has a book of his own.
So the real meta question is
who reviews the book?
I think he wrote a book,
The Lonely Hearts of the Cosmos,
which was about
two astronomers trying to find the scale of the
universe.
Was that the book I'm remembering?
I don't remember the details.
Okay.
But it was biographical astronomers who had access to big telescopes.
All right.
And you're there at night looking up at the night sky with the telescope and nobody else,
Lonely Hearts of the Cosmos.
Okay.
That sounds about right.
Okay.
No, I'm joking.
All right.
Here we go.'s let's get
back to our questions uh this is um uh cs2 hold on lord so people can see your beautiful face
cs2 one i forgot we're on camera too um hey do you think the laws of physics are finite
and knowable can we ever fully understand the universe in its entirety? If so, what forces might we be
able to manipulate
that are beyond us
now?
That's a very, very cool question.
No, it's a deep question because
look, you look around the world and there are intelligent
beings walking around, dogs,
right? And they don't, we think,
understand the general theory of relativity or quantum
mechanics. So these are intelligent brains. Although when I say that, I always think the
dogs are out there barking and say, oh, he thinks we don't understand general relativity.
You know, but seeing if that's really the case, then why do we think that the human brain
would be able to understand it all? We may have limitations on the deep truths that we're able
to grasp. Now, having said that, there's no evidence that there's any limit to what we can
figure out. We haven't hit the wall, right?
We did develop quantum mechanics. We did develop
relativity. Wait, wait, wait.
You and your compatriots
have been at this string theory thing for 30 years.
Yeah, here we go. Maybe. Here we go.
Maybe that's the wall.
It could be. Maybe you guys aren't smart
enough. You found the wall.
But here's what I would say to that.
Let me hold up a mirror to you here, okay?
Who's the one who's at the edge of the wall?
See, but that would only be the case if we were sitting here saying we can't make any progress in understanding the mathematics of string theory. We're making incredible progress, but the thing is, in the part that you're responding to, which is completely justified, we haven't been able to make contact with observation or experiment.
justified, we haven't been able to make contact with observation or experiment.
But that's not all that surprising
when you're dealing with a theory
whose energy scale is like
10 to the 15, 10 to the 16 times
greater than that of the Large Hadron Collider,
the most powerful machine in Geneva, Switzerland.
So I agree that we have
hit roadblocks, but it's not us
theorists, it's the experimenters.
Oh!
And if I might chime in here And if I might chime in here.
Smackdown.
If I might chime in here, let me just add.
That's the dog saying, we have a solution, but you just.
There's your answer, guys.
You're neutering us and you're taking us to.
And you're feeding me Alpo.
I don't know.
Okay, cool, man.
Oh, that's a great answer.
That's a great answer.
Wait, wait.
Go ahead.
Let me give a nuance to that question and hand it back to him.
All right.
Okay.
Do you believe there may be missing laws of physics that'll help us get further or that
kind of all the laws of physics are there, we just need to be more creative with what
we've got?
Yeah, I think it would be hubris.
That's a little bit of that.
Yeah, it is.
It's a different tact.
Yeah, to think that we really have it right now
would be sort of the classic act of hubris, right?
I mean, every time we thought we figured it all out,
there was a new law.
There was a new particle.
There was something else to find.
So I would imagine at sufficiently high energy scales,
we're going to find new stuff, new particles.
New energy scales would be beyond where anyone has gone before.
Yeah, so right now...
Too boldly go.
Yeah, so let's say we've basically gone on the order of
10,000 times the mass of a proton, roughly speaking.
Energy.
Energy, energy scale.
And we haven't found anything new yet.
But I would imagine that between that scale
and the so-called Planck scale,
which is where the fundamental laws of quantum mechanics and gravity come together,
that's 10 to the 19 times the mass of a proton.
So that's 19 orders of magnitude bigger than a proton.
And we've only gone up to sort of four orders of magnitude bigger than a proton.
So in that range, I suspect there's going to be something new to be found.
Okay.
Interesting.
Because just in all fairness to those who've come before us,
they would be working in a tabletop, right?
And there'd be some phenomenon they don't understand,
and then they'd experiment with it,
and then they isolate it and name it
and characterize it and mathematize it.
Yes.
And so our basic known four forces of nature
come out of that kind of experiment.
Kind of tabletop plus simple particle accelerators, right?
And astronomical observations.
And observations.
So what you're saying is,
that's a regime that manifested some aspects of nature
that we have figured out in a tidy way.
Yeah.
But there could be bigger questions
we don't even get to yet
because we haven't tested the regime
and that regime is not on our table top.
Exactly.
Okay.
That means the future
of physics is big money,
big accelerators.
That is one way.
The lone candle burning.
It's that,
but I also like to think
that if we're
sufficiently clever,
we might find
indirect ways
of probing realms
that you think
would require
that big machine,
but maybe we can be
smarter about it.
Okay.
On Star Trek, it's just all computer simulations.
By the way, just as a signal to my people, being clever,
it was how are you going to put a big telescope in orbit?
You can't make a rocket that wide.
No, so you...
Build it. Let's build it.
Well, you can build it in space,
or you can get a mirror that unfurls. All of a sudden, the engineers say, hey, I got it. Let's build it. Well, you can build it in space. Yeah. Or you can get a mirror that unfurls.
Right.
All of a sudden, the engineers say, hey, I got this.
Right.
Let me be clever and figure it out.
Yeah.
So we've actually overcome many challenges that previously were considered intractable
just by clever people.
Yeah, exactly.
I'm echoing your point.
Yeah, yeah.
Cool.
Exactly right.
That is super cool, super cool, super cool.
All right, here we go.
This is Janesh from Instagram.
It says, finding slash creating your own meaning is fine. cool super cool super cool all right here we go uh this is janesh uh from instagram says finding
slash creating your own meaning is fine but objectively what do you think brian is the
actual meaning of this creation yeah yeah that's meaning is it that's a big part of where you try
to go in this book yeah and and the answer that i give to that question which is developed completely and more you know more fully i should say not completely in the book
is that there is no ultimate meaning floating out there in the void right throughout these i gotta
go through all these pages and to find out that there's well i'm gonna get i'm gonna give you the
i gotta read this for you to tell me there's no meaning cliff notes cliff notes right here so the
cliff notes are that we are the product of the mindless, purposeless laws of physics.
We are all just bags of particles governed by those ironclad mathematical.
That's it.
And what we have the capacity to do, which is remarkable, is impose order, impose coherence,
impose purpose and meaning on the external world and the internal conscious experience.
And so it's not as though there are two things.
The real answer that's floating out there in the void awaiting our discovery
and sort of the internal one that we manufacture.
It is only the internal one that we manufacture because there is nothing else.
How do you know this?
I don't know this beyond my experience in a lifetime of working with the laws of nature the particles of
nature and trying to give explanations for the things that we observe in the external world so
the particles are your gods well uh you know there is a place for religion you need to answer that
way faster no no no no if you really want to go there. Let me think about it. No, no, no. My altar has some neutrinos on it, but...
Yeah.
No, no, but honestly, seriously,
I do think there's a role for religion
that some of our colleagues step on
and dismiss out of hand entirely.
And what would that be?
Well, it's not to understand the external world.
No one can use any religious doctrine
to calculate the electron's magnetic moment
to nine decimal places,
which is
what we can do routinely with quantum field theory. But if you think about religion and
the spiritual journey as something that doesn't illuminate the external world, but rather the
internal world of conscious experience. Which many people go to it for meaning in life.
Yes, exactly. Then there is a role for it. And you don't judge it by whether it can explain
the external world. That's not what it's meant to do. You judge it by whether it can explain the external world. That's not what it's meant to do.
You judge it by whether it is a satisfying way of trying to understand your place in the universe.
90% of religious people would say that.
The other 10% who are fundamentalists.
Yeah, of course, go a different direction.
Get their science out of the Bible.
I agree.
And that's problematic.
Enlightened religious people are where you're coming from.
I agree.
That's very good.
That was a little journey.
I liked it, man.
I still think he's got
an altar in his home.
A neutrino altar.
I'm pretty sure.
He sacrifices
to the particle gods.
I'm pretty sure.
I'm pretty sure about that.
All right.
Okay, let's move on
to Lee Bird.
Okay. So, Lee Bird. Okay.
So Lee Bird from Facebook says,
Hello, Dr. Tyson and Dr. Green.
My wife has asked,
Where, where does our universe end?
Not how, but where does our universe end?
And I would like to say,
Are there more than one ending?
Is there an ending and then more endings?
Are there levels of endings? That's a time ending rather than a place ending.
Well, that's what I'm saying. But is this a place
ending? That's what I'm hearing.
You think it's a time ending?
So there's a place ending.
Where's the sign that says
stop? It can't go any further.
Bridge is out.
And look, the quick answer is we don't know.
Okay.
But the possibilities are space could go on infinitely far, in which case there never would be an end.
That's a strange idea to us beings that live in a finite environment.
But nevertheless, the math allows that as a real possibility.
Oh, cool.
Or space could be curved, which means you could go out in that direction and ultimately circle back and return to your starting point.
So there again wouldn't be an end,
but nevertheless, the space would be finite in its extent.
So these are sort of two big possibilities people think about.
So you could travel an infinitely finite space.
Yeah.
You could go infinitely far, but it would be a finite extent.
Like the surface of the earth.
Yeah, like the surface of the earth.
Exactly.
So the answer is you don't know.
Neither do you.
You didn't ask me.
You're asserting I don't know.
You didn't ask me.
I can tell you this.
Yes.
We look out to the edge of the observable universe.
Okay.
And we see light that has been traveling for 13.8 billion years.
Okay. That gives us evidence of the Big Bang
for that part of the universe experiencing it
at the time it emitted that light.
That horizon continues to push out.
Right.
As long as we keep seeing evidence of the Big Bang,
we are still moving into a universe that's our whole.
Yep. Yep.
Right.
Imagine the day where that horizon washes over the last bit of matter that experienced
the Big Bang.
Then the information coming to us about the Big Bang ceases.
And all of what we know of cosmology would have no data set at that point.
And at that point, you're basically,
the moving horizon, which gets one light year
away from us per year at that speed,
would have overtaken the last matter of the universe,
and that would be the edge of the universe.
Do you agree with that?
Well, there's a version of that
that I think I can agree with more precisely,
which is...
I meant no, but you got it.
He's a guest on my show.
He's a guest.
He's got to be polite.
By the way, I am taking notes.
I got to learn to talk to my wife like this.
I have got to learn how to talk to her like this.
It's like, would you agree?
Well, there's a version that I would agree with more precisely, dear.
Everything but the dear.
Exactly.
He didn't say dear.
Can I get a dear out of that, please?
Throw the brother a deer.
At least.
So even right now, with the accelerated expansion of space,
we can do calculations that show us quite clearly that the distant galaxies that we have used to figure out that space is expanding,
they are going to disappear over the cosmological horizon.
We will not be able to see them
in roughly 100 billion or a trillion years.
So the evidence that we've used to even figure out
that space is expanding-
Is going away.
Is going away.
What you're saying is the matter
that is giving us this information
will overtake the moving horizon.
And then it's a moot point.
Yeah, it'll basically drop over a cliff at the edge of space, which is the horizon, because it's moving away. Yes. And then it's a point. Yeah, yeah. It'll basically drop
over a cliff
at the edge of space,
which is the horizon
because it's moving away
so quickly.
Yeah, outrunning your headlights.
Yeah.
Ooh.
That's what you're doing.
Yeah.
Yeah, that's cool, man.
All right.
Okay, we gotta take a break.
Oh, really?
I know.
This is so good.
I know.
I forgot we were doing a show.
I know, right?
Plus, I still get my deer
out of that.
Deer. Deer.
That's a different marriage.
That's a real one.
That's a real marriage.
All right.
Star Talk.
Cosmic Queries.
Brian Green.
Chuck Nice.
We'll be right back.
Start Talk. We're back.
Cosmic Queries, until the end of time.
Search for meaning in the universe.
And Brian Greene goes there.
He does.
And how many pages, Brian?
Oh, it's only 300.
A lot of end notes.
That's why it looks so thick.
Oh, there you go.
There you go.
That's a nice picture of you.
Thank you.
Yeah, nice picture. Oh thank you yeah nice picture oh wow
and it's recent
and handsome
yeah it was five minutes ago
not like a Tinder picture
like wait a minute
this dude is 23
so Chuck
give us the questions
alright
this is our last thing
let's see how many
we can squeeze in
real quick
we'll get our
quick let me just ask
a quick question for myself
alright
we're able
this is hypothetical
because we're not able to
but we're able to get beyond this horizon that you were talking about. We're able to observe that
there, whatever, right? But now we are outside of the universe that was created at the Big Bang.
What is time in that place? Well, it could be the same as time here. So that cosmological horizon
is, as Neil was pointing out, just the distance
that we can possibly see because light
has had the time to travel from it to
us since the Big Bang. But it could
be that time applies throughout this
realm of space, and it could be that
it looks out there much like it looks in
here. It's not as though you pass through it and you've
been in some entirely new domain.
However, it's possible that
it could be different. Since we've never been there,
the math suggests that it will be the same,
but were it different, that would be shocking
and wonderful. Wait, wait, but Brian, let me take
issue with that. Yeah, please. Dear.
The horizon is not a real place.
It's just the property
of where we are and the speed of light.
So that's what I meant.
Well, when I'm a ship at sea and I go to my horizon, whatever, 10 miles away, now I have a new horizon and I'm still at sea.
You're still at sea.
Exactly.
So why are you telling me something different is going to happen?
No, that's my point.
I believe that that will be the case in the universe.
But it's also conceivable.
That is not what he said.
No, no, but it's conceivable.
but it's also conceivable.
That is not what he said. No, no, but it's conceivable.
You would agree
that when you take your ship,
it's possible that when you reach
your current horizon,
it could be that things
are completely different.
It could be the dragons
who are there.
It could be the gates of hell
that are there
since you've never been there.
Or you'd have to presume
that at exactly that distance
and you were in the middle
of where all those dragons were
and that's kind of...
It's a very special space.
That's a very special space.
It's a very special space.
That was the point.
I can't go wrong with that.
Yeah, so if I didn't say it clearly, I suspect, and the math strongly argues, that it will
be the same out there.
Fine.
But it's conceivable that it would be different.
All right.
But I get what I really get out of that, and maybe it just helped me out here.
What you're saying then is what we are seeing is a reference.
That's what we're seeing.
We're not really seeing an edge.
We're not seeing, we're seeing a reference is what we're seeing.
Any more than a ship at sea.
That's not the edge of the earth.
You can think it's the edge of the earth.
And it might be the edge of the earth.
It probably isn't.
However.
Uh-oh.
Uh-oh.
Getting too much time to think.
I should point out.
There we go.
Getting too much time to think.
I should point out.
I should point out that in a universe where the spatial expansion is accelerating,
that cosmological horizon would actually have a temperature.
You're right.
It's not a real location in space. But from that spot, we would have heat emerging that would give a background temperature
that at the moment would be about 10 to the minus 30 Kelvin.
So it actually has a physical presence,
even though it is in some sense just a reference.
It's a thing to measure.
Oh, I love that.
A thing to measure.
That is awesome.
I love things to measure.
Moreover, can I point out,
just since we're going on this tangent,
that temperature that comes from
that distant cosmological horizon
may imperil the future of thought itself.
Uh-oh.
So one of the things I describe in the book is that in the far future, any kind of—
That's where the book ends, the thought ends.
Yeah, it is.
I don't get my limits.
It's close.
It's the end of thought.
It ends like this.
I'm cold.
Never hears the idea.
So any cogitating being through the act of thought has to release heat, right?
Second law of thermodynamics.
And if it's
the case that that cogitating being can't release its heat it will burn up and because of the heat
emitted by the distant cosmological horizon in the far future a cogitating being will not be able to
release that heat and if it thinks one more thought it's not very much heat i know but in the far
future that's all you got that's all you got oh That's all you got. Oh, that's all you got. Yeah. So you're saying, oh, this is scary.
Don't tell me this.
Yeah.
Oh, now I'm sad.
Yeah.
Now you're going to read the book.
Okay.
No.
Now let me repeat what I think you said.
Yeah.
That every act of thinking is a thermodynamic electrochemical process.
Yeah.
As far as we know.
Yeah.
Okay.
So that creates heat that needs to dissipate
so that you can have your next thought.
Yeah.
If the bath, the thermal bath in which you were immersed
has a greater temperature than the temperature of your thoughts,
then your thoughts will back up and overheat
and you can't sustain that.
Yeah, that's the basic idea.
Like an overloading phaser.
Yeah.
Yes.
Yes.
Yeah.
Very good.
But now it's the brain
of the thinking being.
That's actually doing it.
So it tries to think
and it explodes.
And it self-destructs.
Self-destructs.
Wow.
All right.
Let's get back to this.
Okay.
All right.
We're short on time.
Okay.
All right.
All right.
What do you got?
Here we go.
This is Juan91 on Instagram. 911. He says, Hi, Neil and Brian. Okay, all right. All right, what do you got? Here we go. This is Juan91 on Instagram.
9-1.
He says, hi, Neil and Brian.
It's not 9-1-1.
It's just...
It is 9-1-1.
It is?
It is.
Okay.
That is good.
All right.
You were absolutely right.
It's 9-1-1.
And he goes, hi, Neil and Brian and maybe Chuck.
My question is the following.
Hypothetically, if we were living in a universe
where we can increase or lower the entropy,
would it be possible to travel in time?
Greetings from Montreal.
I really love the podcast, and it makes my commute all the better.
So let me reshape that so more people can be part of that.
So as you know, and as you've written,
the increase of entropy is one of the arrows of time.
So if we somehow had control over entropy in the universe to reverse it,
will that imbue us with powers over the arrow of time?
I don't think so.
So you're right.
We often do think about entropy and its relentless increase as an arrow of time.
But if it were to reverse itself,
time would still carry on in the direction that it was always traveling.
We would just see some weird things happening in the environment around us.
We might see, for instance, eggs unbreak or candles unburn, but it wouldn't be time going
backward.
It'd be those physical processes going backwards.
Okay.
Now, if everything went backwards, that would be something else, but that's not what the
question is.
It's just we're able to reduce entropy in some
region. Okay, so if we're
able to reduce entropy of the universe,
because we know we can do it locally, that's what life is.
Life is
organized matter, so it has lower
entropy than it would otherwise have
if life did not form. We're using energy
from the sun, basically, to do this.
So if we somehow did have power over entropy of the entire universe, do you think that
would have any consequences at all?
Well, yeah.
I mean, it would radically change our predictions for what will happen in the far future.
You know?
Yeah, yeah, yeah.
Things that our understanding of nature is so intermixed, intertwined with an increase in entropy,
that if entropy systemically decreased, we'd have to rethink what was cause and what was effect.
That's right.
And we'd have to rethink where we are headed in the far future.
Yeah, yeah.
Okay.
Dude, that's really cool.
Okay.
All right.
Let's do this one.
And I have to rewrite one of the chapters of my book.
Team Forsythe Observatory on Instagram would like to know,
hello, Neil, Brian, and Chuck.
What do you all believe would be the world's religion's response
when we are contacted from another civilization outside of our own existence.
Give it to me.
There you go.
Yeah, I don't think it will make all that much of a difference.
I think the nature of reality for us scientists would change completely
because now we'd have a second instantiation of life out there in the universe,
which would be a radical moment.
But I think for the world's religions...
Not just like, but intelligently.
Oh, intelligently.
Even better, yeah. You know, but for the world's religions... Not just life, but intelligent life. Oh, intelligent life. Even better, yeah.
You know, but for the world's religions,
I don't think that there'd be much of a difference
because they have a certain perspective
on where we've come from and why we're here
and what we're doing.
And I don't think that the existence
of additional intelligent life
would really change things in any substantial way.
Oh, okay.
Let me do this for both of you.
Here's the deal.
That same thing, but now, here's the deal.
Those beings tell us, we put you here.
Now, what do the religions do?
Well, so there's already a religion about that.
What?
They call the Ray aliens.
What?
I'm just saying.
I'm just saying. Is this true? Yes. Really? the Ray aliens. What? I'm just saying. I'm just saying.
Is this true?
Yes.
Is this?
Really?
The Ray aliens.
So this religion is a religion where God is not God as imagined in the Hebrew Bible,
but God is an intelligent race of aliens that created us.
Really?
And so there's strong overlap with a God,
because if a God created us and they're the external thing. Or there's a overlap with a god, because if a god created us,
and they're the external thing.
Or there's a creator.
A creator, right.
You got that.
So,
there's a whole religion
that's already there,
is my point.
So they would just be like,
told you.
Exactly.
But to your point,
there are some religions,
or some branches of religions,
where it's very important to them
that the universe was created for us,
and for no other life.
They would have an issue with this.
But most religions have gotten past that.
And religions are more than just belief systems.
They're also institutions.
And institutions generally have their own survival as a fundamental part of what they do and why they do it.
And moreover, there are so many religions already practiced on planet Earth,
and each one needs to deal with the existence
of the others and other religions and they're able to do that by virtue of saying ours is a real one
and theirs is not so i think we'd have that same kind of response if aliens came down but to your
point about ray aliens if that's the name of it there's also the simulation hypothesis right if
we are all just a simulation of future supercomputer then then again, there's a godlike being,
the kid in the garage who's fired up the supercomputer.
And again, you don't have anything supernatural.
And yet we would be the outcome
of a creator's desires, wishes, whims,
because that kid fired up that simulation.
Hmm. Okay.
So he has another altar and it's a kid.
The kid god as well as the powerful god.
Yes, that's not his altar.
Right, gotcha.
All right, let's see if we can get another one in.
This is Oskot.
He says from Twitter,
since the beginning of our civilization,
the human mind and consciousness have evolved so much.
Can the human brain figure out
the human consciousness?
In what ways can we confidently predict
that we will acquire the ability
to comprehend the majesty of the cosmos?
So do you get into consciousness?
I do, yeah.
There's a whole focus on it.
So we got to go quick.
What's your take on it?
My take is that consciousness
is an exquisite physical process,
but nothing more than a physical process.
It is simply particles coursing through a gloppy gray structure inside our heads,
again, fully determined by physical law.
Do you think it was emergent?
Yes, it certainly emerged by virtue of the organization of this structure inside of our heads.
I don't think there's anything else beyond
the particles and the laws of physics required for consciousness to exist. I mean, do you?
No, no, I'm not convinced by so much of what's written about consciousness. I mean, the fact
that there's so many books on consciousness and everybody's talking about it, it means no one
knows anything about it. The evidence you don't know anything is people keep writing about it,
right? How many people are still writing about Einstein's general relativity?
Yeah, of course, yeah, yeah. Right? Yeah, so it is, but I agree. I think everyone would agree,
it is the grand mystery, you know, where does consciousness come from? And many take the
approach that we know historically people use with life. People thought vitalism. It couldn't
just be particles and the laws of physics. You got to inject something else, a life force.
Nobody talks that way any longer, right? And now-
Some Christians will talk about a soul.
Right, but few scientists think that way any longer.
Similarly, there are some scientists
who think you have to inject something
into the particles and the forces
to get conscious self-awareness.
I think a hundred or a thousand
or whatever number of years from now,
people will look back and smile
at how quaint that idea was,
but there's nothing more than particles and physical laws.
What was the question about consciousness
though?
Will we be able to
understand consciousness and then
using that, be able to understand
or comprehend the majesty of the
cosmos? So let me reshape that.
So, is there a level
of consciousness that awaits us
that will enable us to
appreciate the cosmos even deeper than we already do.
Yeah, I certainly hope so.
A level of awareness. Yeah, you know, I think
as we learn more about
reality, we reshape our
sense of who we are and what the grand
mysteries of existence are. And I think that's a
beautiful journey that we've been on
for thousands of years and it will carry onward.
Cool. Those are some final
thoughts. Those are very good final thoughts.
Yeah.
Brian,
you don't come by often enough.
Invite me.
I'll be here.
Dear.
We have to invite him
more often than the rate
at which he writes books.
That's the problem.
There you go.
All right.
Brian, always good to have you.
Thank you, sir.
Chuck.
It's a pleasure.
My boy.
My man.
All right. This has been Cosmic Queries. I'll just have to have you. Thank you, sir. Chuck. It's a pleasure. My boy. My man. All right.
This has been Cosmic Queries.
I'll just have to say it.
The Brian Green edition.
Yeah.
All right.
Neil deGrasse Tyson here, your personal astrophysicist, as always, bidding you to keep looking up. Bye.