StarTalk Radio - The Physics and Fantasy of Time Travel

Episode Date: October 21, 2016

Neil deGrasse Tyson unravels time travel with the help of theoretical physicist Michio Kaku, “Back to the Future’s” Doc Brown, aka Christopher Lloyd, “Doctor Who’s” Missy, aka Michelle Gom...ez, and co-host Chuck Nice. Plus, Bill Nye takes a ride in the DeLorean. Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.

Transcript
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Starting point is 00:00:00 Welcome to StarTalk, your place in the universe where science and pop culture collide. StarTalk begins right now. Welcome to the Hall of the Universe of the American Museum of Natural History. I'm your host of StarTalk, Neil deGrasse Tyson, your personal astrophysicist. And tonight, we're going to be talking about the science and fantasy of time travel. And because we're featuring my interview with Christopher Lloyd, who played Doc Brown on Back to the Future. Not only that, I've got my interview with Michelle Gomez, who's a lead actress in the BBC cult series Doctor Who. So, let's do this.
Starting point is 00:00:46 Yes. All right. I love bringing in help to talk about this. Chuck, my co-host tonight, community co-host, thanks for joining. Of course, always a pleasure to be here, Neil. And I've also got a good friend and colleague, Professor Michio Kaku, who is a professor of theoretical physics at the City University of New York.
Starting point is 00:01:08 So, Michio Kaku, thanks for being on StarTalk. Glad to be on your show. Now, I've got you on here because you're an expert on so many things that transcend ordinary thought. The frontier, the bleeding frontier of physics. You've got several books here, and one that's perhaps more relevant to us tonight, Physics of the Impossible. And I just, when I saw that title, I said,
Starting point is 00:01:29 if it's impossible, how could it have physics that applies? Well, that's the whole point, right? That's why you want to buy the book. Oh, wow. No, but you see, there really is a logic behind time travel and impossible things like jet packs and flying cars, starships. We physicists take it seriously. We have working designs in the literature for potential time machines. Of course, none of us have ever gone into one to find out whether they work or not.
Starting point is 00:01:56 Right, right. Well, one of the most famous time travel movies of all time is Back to the Future. Absolutely. Of course, it was a trilogy, but let's focus on the first one for the moment. Which started it all and actually is the most beloved. It's the most beloved, for sure. And it was 1985, I remember when it came out. And it was so well thought out, so well acted and performed and conceived.
Starting point is 00:02:20 And let's just refresh our memory. Let's check out a clip from Back to the Future. 88 miles per hour! Where the hell are they? The appropriate question is, when the hell are they? Yeah, it's not where are you, when are you. Yeah. And so, in fact, Einstein does come back.
Starting point is 00:02:45 That was not the dog driving the car, although it looked like it. It did kind of look that way. It did kind of look that way. And I think Michael J. Fox was a little too muted on his response to seeing his dog disintegrate. Or to see a car come at you at 88 miles an hour. At 88 miles an hour, and you stood there. And you stood there. A lot of trust in the dog.
Starting point is 00:03:02 That's right. So, well, it's Doc Brown that I met up with for my interview for StarTalk. And he's a deep thinker. And we just talked about that iconic role that he gave us in that film. Let's check it out. No one can imagine anybody else playing that role but you. So, what were you doing? What's your secret? Come on.
Starting point is 00:03:26 I love the whole concept of scientists who deal with insoluble problems. I love the story of a noted scientist who was trying to find the solution to some problem and just didn't come. He worked on it for months. And then one day he's not thinking about anything. He's getting on the bus and it comes to him. And Doc Brown is trying to figure out how to induce time travel.
Starting point is 00:04:02 And he falls down in the bathroom and hits his head against the sink and he suddenly envisions the flux capacitor. So I love that kind of connection because it's kind of the way it works. Well, so that's basically the Eureka effect.
Starting point is 00:04:20 You get hit in the head or something happens to you abruptly and then the idea pops in. But I'm a fan in the head or something happens to you abruptly and then the idea pops in. But I'm a fan of the way Isaac Asimov interprets the Eureka effect. Which is? Which is? Go ahead. Okay, you ready?
Starting point is 00:04:35 The most exciting phrase to hear in science, the one that heralds the most discoveries, is not Eureka, but rather, that's funny. Well, that makes sense. Yeah. So, Michio, do you agree with this? Yes, I had exactly that moment. I first was working on string theory in the 1960s, and it consisted of hundreds of random formulas that you had to memorize in a book. But Einstein wanted an equation one inch long that would allow him to, quote, read the mind of God. So I said to myself, hmm, that's funny. How come this theory has so many random equations? There should be this one-inch equation. One day, I found it. It's called Stringfield theory. That's my equation. I'm the co-founder of string field theory. And it summarizes a theory
Starting point is 00:05:26 beyond Einstein in one inch long. But was that a eureka moment or did you just sort of? It was a that's funny moment that no one was looking for it. No one was looking for this one inch equation, right? Because people were so busy memorizing and using all these little hundreds of little formulas that they would memorize. No one was looking for that one-inch equation. So my famous that's funny story is with William Herschel, who wanted to measure the temperature of the different colors of light that come through a prism. Just to even think to do that, that's a... Yeah, listen, that's all I can say is a mushroom tea night for me.
Starting point is 00:06:07 Wait, so he's got the spectrum laid out. He's got the spectrum laid out, and he puts a thermometer in each color. And then he says, all right, I need a control thermometer. So he puts that thermometer beyond the red side of the spectrum where there's no light. And then he watched the temperatures. And the one where there was no light, just beyond the red, rose to the highest. And he said, that's funny.
Starting point is 00:06:30 There's no light there. The man discovered infrared, which is not visible. So there was light there. There was light there. You just couldn't see it. He thought he put it in a safe place. That was a that's funny moment. And then Isaac Newton, which I think is more of a eureka moment.
Starting point is 00:06:45 The man is sitting outside his backyard in Lincolnshire. We filmed part of Cosmos there. It was almost like a pilgrimage going up. I was feeling it. That's your favorite guy, right? That's my boy. That's my man.
Starting point is 00:07:00 I go to visit my man, and his apple tree is still in the backyard. Okay? So, so, so, after I, like, got a hold of myself, I bit an apple next to his tree. And then I floated up off. Yeah. Yeah, I just floated up in that moment. That is awesome.
Starting point is 00:07:22 So that is actually Isaac Newton's original apple tree. So the apple story is true. Well, yeah, but what happened was he saw an apple fall. He didn't get hit in the head with it. He saw the apple fall. I'm not going to erase that. Wait. Erase, erase, erase. Go ahead.
Starting point is 00:07:40 And he saw the moon in the sky, knowing that it orbits the Earth. And so here's an apple falling straight to the Earth, and some other orb going around the Earth. Right. And in that moment, he recognized that the same force is making both things happen. So it takes Newton to have an apple falling in a straight line and a cosmic object going in orbit to drop it into one equation. He's in your one equation club. Is that right? Okay. Michio. No, that's the first unified field theory because they unified earth-like physics with heavenly physics when the church says they
Starting point is 00:08:17 were two separate things. One, heavenly physics that God would obey and then the venal and mortal sin that we lived in, he created the first unification in all of science. Interesting you said that God obeys the law of physics. That's an interesting inversion of how most people think of God. Yes, because most people think that God actually created the laws of physics. Yeah, but Michio has separate access to deities. I've learned this. Let's go back to my interview with Christopher Lloyd. It turns out, though he plays a geeky scientist,
Starting point is 00:08:52 he's actually got some geek in him, like in real life. Oh, yeah. I love finding that out in people. Let's check it out. Einstein always kind of amazes me. He amazes us all, by the way. Yeah, yeah. And he was just a clerk in the the way. Yeah, and he was just
Starting point is 00:09:05 a clerk in the patent department. Nobody knew. But he's going to look at this, and there's a railroad station, and he spent a lot of time doing mind games, what are they called? Thought experiments. Yeah, your Gdanka experiments.
Starting point is 00:09:21 Having to do with if a train is moving through, and somebody drops a ball and it bounces, how fast, you know, and how it relates to the world outside. These are the seeds of the genesis of relativity. And there was a famous clock tower over the railroad station. So there was time, travel, all that kind of stuff going on. So he loved himself some Einstein. Yeah, in fact, my favorite Einstein quote is,
Starting point is 00:09:52 if a theory cannot be explained to a child, then the theory is probably useless. Meaning that all great theories are based on pictures that even children can understand. The idea. And so in 1905, you had special theory of relativity, which involved the trains and the clocks and the timings. And then 10 years later, 11 years later, the general theory of relativity. So, Michio, relativity is a modern idea of how the world works, and it doesn't seem to emanate from anyone's sort of chair, because it's not part
Starting point is 00:10:23 of anybody's common sense. That's right. Common sense says that time is like an arrow. You fire it, never comes back. One second on the earth is like one second on the moon. Einstein says, no, time is like a river, a river that meanders and speeds up and slows down. And the new wrinkle on this that I work on is the fact that the River of Time can have whirlpools and fork into two rivers. And that, of course, is Back to the Future. Whirlpools in the River of Time. Man, that sounds like a really cool soap opera that I would... And now on the next episode of Whirlpools in the River of Time.
Starting point is 00:11:04 That's right. Well, up next, we're going to discuss another icon of time travel in pop culture. And that occurs in the series called Doctor Who, when StarTalk continues. Welcome back to StarTalk. Right here at the Rose Center for Earth and Space. And we're talking about the science and the fantasy of time travel. I got Chuck here. I got Michio Kaku, an expert on so many things, including time travel.
Starting point is 00:11:39 How often do you just have an expert on time travel just sitting around, right? So we reach for you. So in your book, The Physics of the Impossible, you actually classify impossible things and you classify time travel as a class two impossibility. What the hell does that mean? Class one impossibility are things that are actually possible, but most people think they're not. Like, for example, possible, but most people think they're not. Like, for example, jetpacks, starships, teleportation. They're all physically possible. In the laboratory, we actually teleport atoms. So there's no law of physics preventing them?
Starting point is 00:12:18 That's right. But people think they're impossible because you see them on Star Trek. They've only ever seen them in a science fiction story. That's right. But we have jetpacks. We can make flying cars. We can do all that stuff, except we go to class two now, where we really have problems. Now we're at the cutting edge of physics, where I do my research. That includes wormholes, higher dimensional travel. This includes black holes and what happens at the center of a black hole, wormholes, time travel. These are class two impossibilities. I'm afraid to learn what class three is after hearing that. Class three is just darn impossible, period.
Starting point is 00:12:55 Just plain old impossible. Like violation of the conservation of matter and energy, getting something from nothing. That would be a class three impossibility. Or my wife letting me go to a strip that would be a class three impossibility. Or my wife letting me go to a strip club. So that's class three impossibility.
Starting point is 00:13:09 That's class four. Okay. Class four. Not in your lifetime. Well, there have been people who tried to make time machines in the past. And most famously,
Starting point is 00:13:19 we have H.G. Wells in 1895 with a story called The Time Machine. The Time Machine. That one took people to new places psychologically, intellectually, scientifically, and that wasn't the last time people have tried to do this.
Starting point is 00:13:33 The most successful and longest-running science fiction series. Doctor Who. True. It's got a rabid fan base in the UK. Frightening people. Just going to say. And the fan base, we got a strong fan base here in the United States. Yes.
Starting point is 00:13:52 Including my daughter, who's a Whovian. Listen, I... They got words. If you are, you're a Whovian. And it started in 1963. Yes. So if you knew about those, you're a classic Who. Right.
Starting point is 00:14:03 But then they rebooted the series in 05 if you're into that then your new Who knew who? So that series involves time travel, yes, let's check out what they do Missy the master whatever you call yourself. I promise I'm much more useful to you alive. Evil? That is a frightening woman. So, Doctor Who follows the adventures of a humanoid alien called The Doctor. Okay?
Starting point is 00:14:42 That was not The Doctor. That was The Doctor's nemesis. That nemesis is called the master and they occasionally will face off to one another and all of their adventures involve moving through time in some way that is always intriguing always uh there's they force you to think about the consequences of having done so and what they're doing in that time and place and what effect that'll have on everything else in the universe. And so that woman who zapped this other woman
Starting point is 00:15:13 out of existence, the woman who plays that is called Michelle Gomez. And she is the first woman to play the role of a Time Lord. Time Lord, yeah. And so she came by my office. And I said, I had to ask about this. What are the powers that you have?
Starting point is 00:15:29 Because we all know about the Doctor's powers. They're both Time Lords, but they're nemesises of one another. Let's check out the actual powers of the Master. Could you list for me the powers of the Master? Being able to time travel. Time travel, but with your vortex. Yeah, at the moment with the vortex manipulator. Your non-tardis vortex.
Starting point is 00:15:54 Which is very ugly. So there's that, I would say, is basically that's... That's the thing. That's the thing. I mean, she has lots of... There's other gizmos and gimmicks and things that she has at her disposal to delete you. So there's. So not just kill me, but delete me.
Starting point is 00:16:12 That sounds worse than just killing me. Because if you just kill me, my body, my dead body is here. And then you have to bury me or think about me or carry me somewhere. But then you'll still be here in the cosmos. Yes, my sense of self and memory of me is there. If you delete me. Yeah, you never existed. That's scary.
Starting point is 00:16:29 Well, so here's what's interesting. The fact that she can delete you rather than just kill you means she has access to your prior existence. Right. Because you're deleted, it means no one even knew that you existed. Yeah, that's some really angry girlfriend stuff right there. Chuck, you sound like that's, like, happened to you. I'm just saying.
Starting point is 00:16:54 Which girlfriend was that? I don't know. I'm going to say there's a lot of places on Facebook I don't exist. So, the doctor uses a TARDIS, which is a call box. We might see an image of that later. Missy, which is her name, the master, she uses a vortex manipulator to travel through time. That's basically her time machine. The TARDIS, though, is, do you know that's an acronym?
Starting point is 00:17:22 TARDIS. I didn't know that. Time and Relative Dimension in Space. That's why you'll always see it capitalized. Right. And it looks for all the world like a... Phone booth. Yeah, a phone booth.
Starting point is 00:17:31 A police call. But you walk in and it's bigger on the inside. Right. That is an entire place on the inside. Micho, that clearly involves another dimension. That's right. These are called multiply connected spaces. If you get scissors and paper and scotch tape and start to cut and then reform in different ways,
Starting point is 00:17:50 you can get wormholes, you can get TARDISes, multiply connected spaces which wrap around themselves. We physicists have cataloged these things. And so if you have enough energy, perhaps you can warp time and space into a pretzel. So this is a kind of a time machine. a pretzel. So this is a kind of a time machine. That's right. So why is a pretzel a time machine? Because anything that allows you to go backwards on that sheet of paper in time is a time machine. So a pretzel, you think you're going someplace, and by the time you turn around, you're back where you started. That's right. In other words, whirlpools in the river of time. And you can see
Starting point is 00:18:25 this by taking a sheet of paper and folding it on itself and then punching through it. And that's called a wormhole. Connecting this part of the space-time continuum to this part, cheating really by not having to go through the full length. Now, to actually build something like this, you need a machine bigger than the super collider in Geneva, Switzerland, the Large Hadron Collider. How much bigger? A quadrillion times bigger than the Large Hadron Collider. So that's not just bigger. It's a lot bigger than the Large Hadron,
Starting point is 00:18:53 a lot bigger than the city of Geneva. But if you had that energy, then yeah, you too might be able to rip a hole in the fabric of space and time. In fact, we think that energy is perhaps the energy of the Big Bang. The creation of the universe itself might have come out through a wormhole. So let the record show that Michio wants to tear a new one in the universe.
Starting point is 00:19:14 But we come back more on the physics and fantasy of time travel on StarTalk. We're back on StarTalk. We're back on StarTalk. And tonight we're talking about time travel. The physics of it. The fantasy of it.
Starting point is 00:19:34 The pop culture of it. Featuring my interview with Christopher Lloyd who played Doc Brown on Back to the Future. Check it out. My fiance would trying to get me to a little more technology adept. So she's, I carry all
Starting point is 00:19:52 these books with me on a plane and she says it drives her crazy. So she's trying to get me on the Kindle. On the Kindle, yeah. She said, now choose a book and we're going to be taking some long trips. And all I could think of was Steve Hawkins' A Short History of Time.
Starting point is 00:20:11 A Brief History of Time, yeah. A Brief History of Time. And she says, why don't you choose something that's fun? And I said, this is fun. And it is. Don't ask me to explicate about black holes or anything, but I love reading it. It's just so awesome. So meet you, A Brief History of Time, Stephen Hawking, that single-handedly put physics back on the map in pop culture ever since Einstein was a pop culture icon. back on the map in pop culture, ever since Einstein was a pop culture icon.
Starting point is 00:20:48 He proposed the chronology protection conjecture. Did I even say that right? That's right. However, we think he's wrong on this one. Wait, so first of all, so he's saying that backwards time travel is impossible, A. B, you're saying we think he's wrong. Does that mean you think he's wrong?
Starting point is 00:21:07 When the word we comes out of Michio's mouth, who is the we? I don't know, but I just think this is awesome. Like just sitting here and listening to astrophysicists talk about the fact that Stephen Hawking is wrong. Awesome. He himself has stated that he is unable to prove that hypothesis, which would disprove time travel. But that's why it's a conjecture. It's a conjecture, but it's never been proven.
Starting point is 00:21:36 And that's why he cannot say that time travel is impossible. He tried to codify the impossibility of time travel. He failed. Meaning that it could be possible. Damn, that was a Stephen Hawking smackdown. But there's some other arguments here. There's sort of the practical arguments. So, for example, if in the future a time machine is invented where you can go backwards in time, presumably they would have already done so. Where are they today?
Starting point is 00:22:06 Well, we're going to have invisibility in the next few decades, so maybe they're invisible. See, you're pulling stuff out of your... Maybe they're here. Maybe they're here, right here. You're telling me you're right and Hawking's wrong because they've actually come back in time and they've made themselves invisible. That's right.
Starting point is 00:22:22 But wouldn't you, though, if you went back in time, you wouldn't let people know that you were from the future, would you? I mean, seriously, you would not go back because, first of all, they would take you and put you in a room. No, no, no. First of all. No, no.
Starting point is 00:22:36 Chuck, as you know, there aren't many times in the history of this civilization that either you or I ever want to go back to. Well, listen, I'm going to tell you right now. Okay. Michael J. Fox went back to 1955. There's no way in hell I'm going anywhere near 1950 anything. That's exactly right. That's what I'm saying.
Starting point is 00:22:53 As a matter of fact, I'm not going past 1980. Things get a little sketchy for me right after they invented hammer pants. If I go back and I don't see hammer pants, I'm like, nope, I'm going back now. So, okay, so they're invisible. But in any of these scenarios, does the universe split? That's right. We get what is called a multiverse of universes, where time travel is possible without any contradictions.
Starting point is 00:23:22 If you saw Back to the Future Part 2, where they go backwards in time and Biff steals that almanac, Doc Brown goes to the blackboard, draws a horizontal line, and then he forks that line where Biff steals the almanac. That is a physically correct description
Starting point is 00:23:39 of all time travel paradoxes. Okay, let me correct you. It's not that it's correct. It's that it doesn't violate laws of physics. We don't know if it can ever happen that way. That's paradox. Okay, let me correct you. No, it's not that it's correct. It's that it doesn't violate laws of physics. We don't know if it can ever happen that way. That's right. Okay. Just say it's correct.
Starting point is 00:23:51 It's consistent. Like you've confirmed this. It's consistent with what we know about the laws of quantum mechanics and general relativity. It's consistent. So therefore, it cannot be excluded. That's right.
Starting point is 00:24:03 And that's why Hawking has since backtracked on his chronology protection hypothesis. We have not been able to prove that time travel is impossible. Well, coming up the science fiction of time travel meets the science fact on StarTalk.
Starting point is 00:24:31 Welcome back to StarTalk, right here under the sphere of the Hayden Planetarium. And we're talking about time travel in pop culture. And one of my interviews featured Michelle Gomez from the pop series Doctor Who, the BBC cult classic. Let's check it out. Answer me this. The Time Lords always tended to have companions traveling with them. So if people can travel with them, then they too are traveling through time.
Starting point is 00:24:55 So the act of traveling through time is not unique to Time Lords. If you can bring people along with you. Yes, and that does seem to be happening now. I mean, it's just sort of anybody can just jump in the TARDIS with the doctor. Just jump in right before it takes off, and then you're there. But no, that's the fun of it. There's something about the shared experience that we need as humans as well.
Starting point is 00:25:18 There's something about turning to that one person in the dark and sharing that experience. So I think that's where the doctor and the dark, and sharing that experience. So I think that's where the Doctor and the Master are entirely different. The Doctor shares that with somebody and then gets to tell the story, and the story then gets to... Propagate. Yes, to propagate.
Starting point is 00:25:36 Whereas? Whereas with the Master... No companion. There's no companion. So you travel through time alone. Yeah. Space-time alone. Yeah. Space time alone. Yeah.
Starting point is 00:25:46 So, Micho, when you invent your time machine, are you taking friends with you? No, I don't think so. I think it's a personal journey, and I don't want to be deleted if they make a mistake. So Time Lords on the show, they're all from, I guess it's the planet Gallifrey. And they form a community of people. And they're capable of manipulating space and time. It's just a feature of their identity. And it's their most defining property of who and what they are and what they do.
Starting point is 00:26:21 And what this show has done is it's split that identity into good and evil. Right. Yeah, so you have the doctor and you have the master. Right. And so that's just kind of how they... And the doctor gets to take friends, and the master is always alone. Well, master's just evil, so... Well, that's...
Starting point is 00:26:30 Yes. Yeah, yeah. That's because she doesn't have any friends. If she had some friends, she'd probably be a lot nicer. I hadn't thought that through. Yeah. Right, if you're evil, nobody wants to travel with you. Right, exactly.
Starting point is 00:26:41 So, Michio, here's an interesting question that I've got. Physics and our understanding of the universe has advanced greatly, as it always does, every year, every decade. And so it's almost come to the point where we are now taking time travel a little more seriously than ever before. I mean, in H.G. Wells, there was,
Starting point is 00:27:04 oh, that's fantasy, and it's fun, let's just watch it. Even in Back to the Future, 1985, it's fun, we can chat about it, but nobody's thinking this. We're at a time when people like you are actually thinking this. Yeah, several things have happened. First of all, we've discovered numerous black holes in the universe. There's one in our backyard, the Milky Way galaxy, weighs two to three million times the mass of our sun. Right in the center of the Milky Way. That's right. These black holes collide, giving us ripples in the fabric of space and time.
Starting point is 00:27:31 A backyard in this context means 35,000 light years away. That's a backyard cosmically. Go. Right. And these black holes rip the fabric of space and time. And according to the theory, if a black hole is rotating very rapidly, it doesn't collapse to a dot, it collapses to a ring. A ring of neutrons circulating very rapidly. A ring, you mean like a donut?
Starting point is 00:27:53 Yeah, and if you fall through the ring, you're not crushed to death, you wind up in another universe. So there is a wormhole, mathematically speaking, at the center of every black hole that is rotating very rapidly. And if you go through the wormhole a second time, you wind up on a second layer of a parallel universe. Now, why don't we take... So it's universes all the way down, is what you're saying.
Starting point is 00:28:16 That's right. Parallel universes all the way down. Maybe even Elvis Presley is alive in one of those universes, right? Thank you very much. Chuck. Chuck. So is there a universe where Elvis Presley would say, you know, I'm not thankful? That's evil Elvis, right? I'm not thankful at all.
Starting point is 00:28:41 You even had the lip. Can we stop interrupting Meats? I'm sorry, Meats. Okay, go. The other reason for taking this very seriously is we have the Large Hadron Collider now, this gigantic atom smasher, you know, 14 trillion electron volts worth of energy. We can create a mini, a mini black hole, a mini Big Bang at the center of the Large Hadron Collider. And so we have to take them seriously now.
Starting point is 00:29:07 At what point does known physics break down? Well, up next, we're going to come to one of my favorite segments of StarTalk, the Cosmic Queries, where we field all the questions you have on time travel, taken from the Internet and our fan base. When StarTalk returns. We're back. StarTalk. From New York City. Manhattan.
Starting point is 00:29:37 In the universe. I just love saying that. I know. So Chuck, this is the Cosmic Queries edition. Yes, it is. You and I do this all the time. All the time. And these are questions solicited from our fan base, and these are all on time travel. I won't necessarily know all these answers, but I got Michio as backup.
Starting point is 00:29:53 Yes, you do. And we're going to try to fit in as many as we can, so the whole segment is going to be lightning round edition. There we go. I got my bell. Okay, let's check the bell. We got it. The bell works. Go for it.
Starting point is 00:30:04 Yes. All right. Query number one is from AtTheatrical. Is time just the universe's way of organizing space so that it doesn't run into itself? Ooh, Michio, why don't you hit that? Yeah, time is a parameter that measures change. That's what time is, a parameter that measures change. And because it measures change, it means that things don't collide.
Starting point is 00:30:24 It separates things. So yes is the answer. All right. Query number two is from at KDR Guitars. What would happen to your atoms if you travel back in time? Surely the atoms within you already exist elsewhere in the past, too. Ooh. Yeah, Michio, why don't you take that one, too?
Starting point is 00:30:42 I could answer these, but I just want to give Michio a chance. Yeah, Michio, why don't you take that one too? I could answer these, but I just want to give Michio a chance. The river of time means you go backwards and meet yourself in the past, and so your atoms exist simultaneously because you're on another timeline. So there are no paradoxes. No paradoxes. So when you meet yourself as a child, that is not really you. It is genetically equivalent to you, but it is you in a different timeline.
Starting point is 00:31:05 So your atoms exist simultaneously. So the act of going back in time split the space-time continuum, so you are meeting you, but they're not your atoms. My God, he's got it. He's got it. Good. Next one. Sweet. I'm going to go back and meet me and slap the hell out of that guy. Our next query from Raymond Pinzon in Lake Forest, California. Let's say you can ride a photon. How would your
Starting point is 00:31:27 surroundings look like while you are on it? Would you be able to perceive movement and time? Let me take half of it and I'll give the other half to Michio. Photons have no concept of time. Time does not exist for photons. If you are emitted
Starting point is 00:31:43 any place in the universe, you are absorbed at your destination that very same instant. Yet to the rest of us, you will see the photon move at the speed of light across, as I did for my PhD thesis, those photons wandering through space ended up in my detector. They hit that in their mind the instant they were emitted from the stars at the center of the galaxy. What would the universe look like if you were surfing that photon? You're right. The universe would be stopped because time as we know it, as a parameter of change, does not exist on the light beam. So you're correct. What would the universe look like to you? Oh, it just stopped.
Starting point is 00:32:32 It just stopped. So it would be frozen. Frozen, right. Wow. That's very cool. Hit the bell. And from at NG1083, is it true we may be able to see into the future, but we'll never be actually able to time travel? Hmm.
Starting point is 00:32:55 Weird question. Well, already our astronauts are time travelers. Our astronauts, when they come back, are like a microsecond, a microsecond younger than a twin, if they had one, on the planet Earth. I tweeted how much younger Scott Kelly is than any twin that he left here on Earth after he had been in space for 10 months. You just run the straight Einsteinian calculations. Learn that in Relativity 101. Right. And if you travel to Jupiter, since time is distorted around Jupiter, time slows down. It means you go forwards in time going around Jupiter.
Starting point is 00:33:28 So you can become a time traveler into the future. It's going into the past that's the big problem. But forward time travel takes place with all our astronauts. And by the way, you are not forward time traveling to meet yourself. You are just moving forward in time. Am I, we go okay on that? That's right. You're going faster than normal in time.
Starting point is 00:33:46 And this was captured in the film Interstellar. Where time became the commodity. They were not just near Jupiter, they were near a black hole. So all these phenomena that Micho is describing happened in spades at a black hole. Gotcha.
Starting point is 00:34:01 Alright, well there you have it. Hit the bell. Well coming up, we've got Bill Nye the Science Guy and guess what he got his hands on? The actual DeLorean from Back to the Future. Oh, man. And I don't know what he's going to do in it and he didn't invite me
Starting point is 00:34:17 on that trip, but when we come back, we will find out what he does with that DeLorean on StarTalk. will find out what he does with that DeLorean on StarTalk. We're back on StarTalk. And we're talking about the science and pop culture of time travel. And who better to ask about that than Doctor Who star Michelle Gomez. Check it out.
Starting point is 00:34:47 Does the prospect of time travel intrigue you? Yes, absolutely. How long, your whole life? From the moment I think my first thought would have been obsessed about being somewhere else. It was only until now that I'm starting to realize that right here, right now, in this moment, right in this moment, everything's just fine and perfect. moment everything's just fine and perfect but that's taken me a few years to get there so your timeline was a work in progress until this moment yes because it had to be beaten into me into submission my very sort of humanness has had to be beaten into me throughout the years well it's true for anyone we are the sum of everything we've experienced. Yes. Right? But not everyone puts it together.
Starting point is 00:35:28 No. Into a new entity. Consciousness. A new consciousness. Yeah. A new consciousness. Wow, man. You guys got really philosophical.
Starting point is 00:35:36 Well, I'm just saying. You know, if you got to go there, you got to go there. Sometimes the moment requires it of you. Yeah. So, Michio, what is this? If there's time travel, what does that say about free will? It means perhaps there's no such thing as free will. No one wants to believe that.
Starting point is 00:35:51 Right. However, you know. I do. My life is a wreck. I'm a quantum physicist. And in quantum mechanics, there is uncertainty. And uncertainty means that we're not robots. By the way, this is not uncertainty the way we normally use that word. This is the uncertainty in position and velocity of electrons.
Starting point is 00:36:10 But since we are made of electrons, it means that there's uncertainty with regards to who we are. We exist in multiple states at the same time. And in some sense, you can be two places at the same time. So for us quantum physicists, having multiple universes is commonplace. If you're going to give yourself multiple universes, then I do have free will. There's a universe where something happens,
Starting point is 00:36:34 I say I don't want to do that, I don't want that to happen, let me go change that, and then I birth another universe where I can do something different. That's right. If there is uncertainty, then there are parallel universes, different time streams, and that resolves all the paradoxes of time travel. And it means that free will can exist because the timeline can fork into many roads. So each one of those timelines actually represents
Starting point is 00:37:01 a different reaction to a choice, if you were this person. So I get up and I went one way to work as opposed to another way to work. I've created a different multiverse by doing that. We create multiple universes simply by making decisions, whether we wake up in the morning or sleep another hour in bed. We bifurcate. We split in half.
Starting point is 00:37:24 And so for us, the time travel paradoxes are very easy to resolve because we work with parallel universes every time we work with a transistor. The internet is based on parallel universes. And some people don't like it, but hey, get used to it. Still, Micho, I think you're invoking parallel universes to make everything you say work out okay. Hey, I think he's got it. That's exactly right. We believe in a unification of all physical law.
Starting point is 00:37:55 And we think that quantum mechanics is the framework that even unites Einstein's theory to quantum mechanics. And the highest version of quantum mechanics is string theory. So I worry that you know you can make another universe rather than commit yourself to this one and make it better. Ooh, can I dodge that question? All right, so before we bring this to a close,
Starting point is 00:38:21 you know we can't do it without, like, a video visit from Nye Times in the City. Bill Nye the science guy, good friend and buddy and now he's a resident of New York now. I finally got him to live here. Now he runs around town doing cool stuff and I'm still here stuck in this chair. So I'm told he got his hands on an actual DeLorean that was used in the movie. Let's check this out. Look out! Is time travel possible?
Starting point is 00:38:56 No, probably not. Be cool, though. You could go back in time and change history. Maybe you could go back to the Titanic and convince the captain to slow down. Or maybe just go back to last weekend and stop yourself from having one more tequila shot. Or maybe you could send a colleague back in time
Starting point is 00:39:20 to have sex with a waitress who turns out to be your own mother, like in the Terminator series, you know, to prevent worldwide nuclear war. That'd be cool. Science fiction is replete with time travel stories. But I think for Neil and me, our favorite's got to be the Back to the Future series. That's where Doc Brown turns a DeLorean sports car into a time machine.
Starting point is 00:39:49 What if you could travel through time? Great Scott! Suppose everything, everyone you know and love, were actually part of someone else's time travel adventure. That would mean that you and I don't even exist. And as I finish this Nigh in the City segment, everything would just disappear. That would be weird. Where did he go? So let's try to land this plane.
Starting point is 00:40:41 So Chuck, what are your reflections on time travel? I think it's great to think about, and it's a lot of fun. But would I actually want to go back in time, to be honest, and change something? No, that scares the hell out of me, to be honest. Michio, what wisdom do you have to drop on us? For physicists, time travel is like children's paradise, being in a toy store as a child. All the toys to play with, all the laws of physics that we might be able to break or extend. So we're talking about a whole new terrain opening up. So this is a great time to be a physicist because we're like children in a toy
Starting point is 00:41:17 store. So your time machine tools and methods are in like a playpen for you. That's right. We get to test the boundaries of theoretical physics. We get to play God. We get to change the laws of physics because the old ones don't quite work right. Well, clearly nothing wrong could ever go wrong. What could go wrong there? What could go wrong?
Starting point is 00:41:41 What could go wrong there? What could go wrong? Maybe time machines have been invented in the future. And they are sending people back. But they're not sending them back invisible. They're sending them back as those who walk among us and end up transforming our world. Whose ideas are well ahead of that of anything else that's going on around them, such as Isaac Newton himself, Einstein, Jimi Hendrix, Marie Curie. Maybe these people who we write stories about,
Starting point is 00:42:20 these people who were ahead of their time, Picasso, people where they did something and no one understood it. We had to keep moving the timeline forward until somebody said, hey, they were onto something. Maybe they are the time travelers in our culture and we don't even know it. And so if you see someone making discoveries, give them a hug.
Starting point is 00:42:45 They're trying to help us save us from ourselves. If you see someone making discoveries, give them a hug. They're trying to help us save us from ourselves. That's how I think about it. Just a thought from the whole of the universe on StarTalk. This has been StarTalk, and I've been your host, Neil deGrasse Tyson, your personal astrophysicist. Thanks to the featured talk talker Chuck Nice. As always, I bid you to keep looking up.

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