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Ologies with Alie Ward
Alie Ward
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From Quantum Ontology (WHAT IS REAL?) Encore with Adam Becker — Mar 4, 2026
Quantum Ontology (WHAT IS REAL?) Encore with Adam Becker — Mar 4, 2026 — starts at 0:00
Today's show sponsored by Strawberry.me. Are you where you want to be in your career? Are really any of us? Super successful people have mentors. They have coaches. They have people guiding them every step of the way. That's where Strawberry.me career coaching comes in. It gives you the clarity, strategy, also accountability needed to turn your ideas and your goals into reality whether you're landing a new job maybe you're trying to advance in the job you've got or you just want to leave your field and go into one that you love more. Career coaching gives you expert guidance. You'll identify obstacles holding you back. You can develop a step-by-step plan. It's really hard to know when the right time to act on things are, when you need more planning, when to just go for it. A professional coaching helps you take control of your career trajectory. I have had career coaching, wouldn't have started Oliogies without it. And also I've used Strawberry.me to help me figure out how to make sure that I'm using my voice the most authentic way that I can. My coach was very empathetic, but also was straight talking to help me identify where I can take action. Go to strawberry.me slash ologies and get 50% off your first coaching session. So that's strawberry.me slash ologies. It's like therapy for your career. What would you do if your online store converted 36% more shoppers? You could take 36% more vacation. Another pina colada. Yes please. Open a new retail location with 36% more square feet. Fantastic. Hire 36% more help. You're hired and you're hired. Shopify has the world's best converting checkout, up to 36% better than other e-commerce platforms. What you do with those extra sales is up to you. Switch to Shopify today at Shopify.com slash setup and get a $1 trial. Shopify.com slash setup. One thing I love about my long-term friends is I'm still learning things about them, especially if we travel together. But maybe you have a buddy that you brought on a weekend trip who you didn't know has to do scream yoga at dawn. Surprise! But verbo, verbo does not surprise you. When you book a verbo vacation rental verbo care and 24-7 live support from real humans are included. If something is not as described or isn't working, Virbo can step in to help make it right. I don't know what to tell you about the screen yoga though. Book today on the verbo app. If you know your Verbo, terms apply. See Verbo.com slash trust for details. Hello, hello. This is 2026 Allie, and I'd like to toss us down a wormhole with one of my favorite episodes. But before we get into it, a little update. This oologist, Dr. Adam Becker, has recently released a new book. It's titled More Everything Forever. AI Overlords, Space Empires, and Silicon Valley's Crusade to Control the Fate of Humanity. It's about the ideology of technological salvation, where this religious belief comes from, who's pushing it by pretending it's science instead of religion, and how it's taken over Silicon Valley. And also how it threatens to take over the world. Again, his book, More Everything Forever. That's his new one. And he told me by email, I'm pretty hopeful that we can successfully fight back against this stuff. So you'll hear more about his book, What is Real, but also just an update, More Everything Forever is now out. Okay, onward. Oh hey. It's your old internet uncle, Dad Ward Von Podcast, here with another episode of Oligies, Allie Ward. Hi. So do you remember your first real existential crisis. Also, if you clicked on this and don't know jack or shit about quantum physics, you're in the right place. You're in good company. Okay, before we spiral into deep, deep space and dark matter, let's shine a little light on some business . So first off, thank you to everyone on patreon.com slash ologies for supporting the show, sending in your questions, thanks to everyone strutting about on planet Earth and Ologies Merch from OlogiesMerch.com. And thank you to everyone who leaves reviews, which helped the show so much. And here is a very fresh 2026 one from Glowing Jelly Bean555, who wrote, I love this podcast so much, and it's a phenomenal way to stay lighthearted and informed on all sorts of things through trying times. Glowing Jelly Bean, thanks for the glowing review. We do our best. Okay. Quantum ontology. So many syllables. What do they mean? Quantum in terms of physics deals with matter and energy at its most fundamental level, and quantum comes from the Latin, meaning how much? How far? How great an extent? Already so many questions just to the definition of this. Also, ontology comes from the root ont , meaning being, and it is the branch of metaphysics dealing with the nature of being. So quantum ontology. Matter, what the hell is it? What are we made of ? What is real? Just tuck a bib under your brain, kiddos, because this week's episode is just a hearty it's a feast of information. It's dense. It's like a bucket of mashed potatoes. And it's filling. Like drinking a pint of gravy. It's gonna make you question everything about life itself. What is reality? What exists? Why are we here? But first, will we cover everything about this topic? Hell no. Will we have to leave out a bunch? Hell yes. Consider this like a warm welcome, an entree into some of the basic concepts about the hiccups in observing and understanding existence. So this ollogist has a BA in philosophy and in physics from Cornell and a PhD in astrophysics from the University of Michigan, is a celebrated science writer and the author of the new book What is Real? The Unfinished Quest for the Meaning of Quantum physics, which, by the way, the Wall Street Journal calls fascinating. The New York Times calls a thorough, illuminating exploration of the most consequential controversy raging in modern science. Splendid, says the Washington Post. Science magazine calls it riveting. So the book, it's good. I met this allogist about four years ago at SciCom camp and he handed me his business card, which read freelance astrophysicist. I was like, I like this guy. And then the next year he mentioned he was pitching a book. And then the following year he said he had a book deal and was writing it. And now here we are. His book, it recounts a lot of the drama in the quantum physics worlds, boy howdy, is there some. Not only are you gonna walk away with an exciting overview of what the hell the universe may be all about, but you'll also hear about some academic infighting and why it's exciting that there are so many mysteries in the universe. So in between seminars and panels at Psycom Camp, we pulled up a couch, we got to talking. So settle in for philosophical physics fun times, wherein we discuss what matter is made of and how many universes there could be and why what we think we know just does not add up and how someone could say you're wrong, but maybe you're right or an inbox can be a lot like a crackpot, and how to tackle your dreams when they seem too big to fathom, and Einstein and string theory and gravity and tunneling and wormholes and cats and more with ast rophysicist, author, and quantum ontolog ist, Dr. Adam Becker . Well that would be fun. Yes. Okay, so is this good? Yeah, let me check your levels. Okay, hi. How's this? It's great. You have a good radio voice. Let's go back in time. Yeah. If you will. Sure. Would it be a wormhole that I could go back in time to ask you about your child I guess you could, sure. Why not? Would a wormhole do it or is it a different type of tunnel in time? I mean I there's no there's no known way that would definitely work to go back in time, but wormholes are one of the, you know, better theories about how you could maybe do it. Okay. So let's go through a wormhole. Now going back, did you always like physics? Astrophysics? How do you how does someone decide that they're into something so complex ? Oh wow. Uh that's a good question. So yeah, see, I didn't think that I was gonna sit on a couch and talk about my childhood. Um but but here we are. Yeah, you uh you trap me. Um yeah, so when I was a really little kid, like a lot of other kids, I wanted to be a paleontologist because dinosa urs are awesome. I love dinosaurs . And then I discovered space and decided, no, no, space is more awesome. And so I got really into space and astronomy and astrophysics and then sort of slowly slid from astrophysics just to physics. And so by the time I was in high school, I thought, okay, yeah, I think physics is the direction I want to go in. Uh this seems really interesting. And I read a lot of pop physics books, and they said some confusing things. And in particular, they talked about two theories that said really wild and strange things about the world. One of them was Einstein's relativity, and the other one was quantum physics. And you know, really, really weird things in both of those theories, but turns out relativity doesn't require more than like early high school math. Okay. You don't need calculus, you don't even need pre-calculus, like it's just geometry and algebra. And so I learned relativity in high school, and I thought, oh, all that weird stuff seems a lot less weird. No, I bet when I get to college and I learn quantum physics, that's gonna seem less weird too. That is not what happened. Oh no . Yeah. No. So instead I got to college and I started learning quantum physics and it didn't get better, it got worse. Oh no. And so I was in this class where the professor was talking about one of the weird things in quantum physics. I don't remember exactly what, 'cause it was a long time a go. But you know, he was saying something about how when you're not looking at things you can't talk about what's going on, but then when you look, things change. And I I probably asked something like, okay, but what do you mean by looking? What w what does that mean? And we kind of got into it. And I don't remember exactly how the fight went down, but I just remember that at the end, he said, in in this like really haughty, disdainful voice, he said, Well, if that's the kind of question that you're interested in, then why don't you go to the philosophy department ? Burn. Yeah. But but joke was on him, I'd already gone to the philosophy department and sighted double major in physics and philosophy and a lot of that was trying to wrap my head around like what the heck is going on in quantum physics, because like this is this is a really, it's a really weird area, but it's also supposed to be this really fundamental theory about, you know, the fundamental constituents of the world, right? Like the tiniest things, the the things that the things that make us up are made of, right? Like subatom ic particles. And yet it it wasn't at all clear what was going on. And so I started digging into that. And the more I dug into it, the weirder it got, and I just did that more and more and eventually thought, you know, I I want to write a book about this because this is just so strange, and I don't understand why this isn't more widely known. Am I gonna feel like I'm on mushrooms? I mean, look at the cover of my book. It says what is real and it's got like wavy rainbow lines. Yeah. So yeah, the answer is probably yes. Okay. Don't you feel funny? Why should I feel funny? Well let's go back first and define what is quantum ontology? Yeah, so uh quantum, I mean, quantum physics is the physics of the ultra-tiny, except that we think that ultra-tiny things make up the world around us. So although it's the physics of the ultra tiny, there's also reason to think it's it's just the physics of everything. Ontology is the study of what there is, of what stuff is in the world. So quantum ontology is the study of okay,, what does quantum physics tell us is in the world? Or, you know, the title of my book, right? What is real? And it is not clear what quantum physics tells us about the world. It's just not clear at all, even though it's not a new theory. It's been around for almost a hundred years. Okay. Well let's start with the theory of relativity, which someone with high school math could understand. Sure. Couldn't can you give that to me in a like a nutshell? Sure. He sounds unsure, but that's okay. Right. So so here's one way of looking at what the theory of relativity tells us. So we sort of think, from our everyday lives, that if I'm standing still, or if I'm in a car going at like 20 miles an hour, there are some things that just don't change between those two situations, like how fast my watch runs shouldn't change between those two situations, or how far it is between my house and the movie theater down the street, that shouldn't change either. No sense. It turns out though that these things that that we think of as not changing between those two situations, uh we call those things invariant because they don't vary. The invariants between those two situations aren't what we think they are. Oh no. It turns out that actually the rate that my watch runs at does change between those two situations, and the distance between my apartment and the movie theater down the street does change. There are things that don't change, but those things are not distances or time. They're a combination of space and time. Space-time. Okay. Is time the fourth dimension? Sure, yeah. In relativity it is. Okay. Yeah. And now quantum. Yes. Theory. Yeah. Oh oh you want me to do the same thing for quantum theory? Just in a nutshell . Just let us know what we're working with. Yeah, so quantum theory says that there is something very, very unusual going on in the world of the very tiny. Really? Yes. And we don't know what that is. What's happening? Now, is this allowed about dark matter and it doesn't make sense that there's so much space between Adams? Holy shit. I just realized writing this that Adam's name is Adam. Adam. What is life? Also, real quick, the matter all around you, the stuff that makes up everything you see and touch and smell and lick, all that matter in the universe is five percent of what exists. And according to NASA, dark matter is something that we can calculate , but we can't see or detect. And it interacts with gravity, but it doesn't emit or reflect light, hence it's dark. And it makes up about twenty-seven percent of the universe. Something called dark energy makes up 68% of the universe. And we know it's strong and it's getting stronger, but we don't get what it is. So just know the wisest minds alive don't know shit. And it frustrates them enough to keep getting out of bed every morning just to figure it out. Dark matter, sure. We we don't really know what's going on there. We know it's around, but we don't know what it's made of. There is a lot of empty space inside of atoms, but that's not not that's really what's going on here either. That's not why we don't understand this. What's going on instead is it is hard to understand the relationship between the the mathematics of quantum physics and the world that we live in. Mm-hmm. Because the math works really well. We can use it to predict and explain all kinds of things. But it also doesn't really look like the world around us. And that's fine. You know, things can be weird. It's a big world. There's plenty of room for weirdness. You're weird. Thank you. But it's it's not it there should be a story, even if it's a weird story, that quantum physics tells us about the world. And it needs to be a story that that makes internal sense, even if it's a really, really weird story. Yeah. Right. There's a difference between being bizarre and being internally contradictory. Right? So what he's saying is that the universe, kind of like a huge restaurant tab at a friend's birthday dinner where no one has accounted for tax or tip, or there are three beverages. Things just don't add up, and everyone is testy about it. The weird thing is that the standard way of answering questions like what does quantum physics tell us about the world around us? Is to say, shut up, that's a stupid question. There's actually a saying in physics to summarize this attitude, shut up and calculate. Oh boy. Because no no no one that that was originally coined by the physicist David Merman as as like a pejorative. Like he was describing an attitude that other people have. Right. He w no one actually should say that in earnest. Right. But some people do. And yeah, it's it's complet ely fucking ridiculous. Well what are where are these logic gaps? Like I know that it's so bizarre, and at least if you could understand the bizarrness, but what is it that's so contradictory? Like what do we think what don't we get? Yeah, so so there's this there's this thing in quantum physics, this sort of fundamental role that the idea of measurement plays. Say that I want to describe I'm holding a pen. Say I want to describe where this pen is, you know, or where I'm gonna find this pen using the physics that we had before quantum physics, like Isaac Newton's physics. Okay, quick aside, Newtonian physics is also called classical mechanics and it deals with objects that aren't at a tiny tiny scale and how they move and rest and such. So apples falling on our heads, tossing your socks in the hamper from across the room, the inertia that causes you to spill hot tea on your crotch in the car. All of those things exist in space and behave in predictable ways. I can do that with three numbers. I can say, okay, this pen is this height above the ground, and it's this far off to the right, and it's this far in front of me. That's three numbers. That's all I need. If I want to take all the information I have about where I'm going to find an electron or some subatomic particle in quantum physics, it's not going to require three numbers. It's going to require an infinity of numbers scattered across all of space. And this set of numbers is called a wave function. Okay. And as the name implies, it kind of waves, it undulates smoothly, right? And that that wavy motion is described by this very nice pretty equation called the Schrdinger equation. And the Schrdinger equation kind of smells like a law of physics. Okay. It looks like a good candidate for a fundamental law of physics. And it says that wave fun ctions, you know, they wave, they they move smoothly, and they they move in a completely determined fashion. There's nothing random or probabilistic about it. Okay, so when we zoom all the way into an atom or the elements that make up an atom, instead of having three dimensions x, y, z, we have an infinity of numbers to describe its location, and those infinity of numbers make up a wave. Got it? Look, we understand. Everything makes sense. We're pretty much quantum physicists now, all of us. Just kidding. But we can still celebrate it. But the standard way of using quantum physics says, okay, wave functions obey the Schrdinger equation. Except when you look, when you actually look for the electron, the Schrdinger equation is temporarily suspended, at which point this, entire other law of physics that is completely different and contradictory comes comes in. It's called the Bourne rule. This is Jason Bourne. Okay, it's actually named for German mathematician and physicist Max Bourne, who helped develop quantum mechanics and was nominated for a Nobel Prize by Einstein himself. But most importantly, Max Bourne is the grandpa of Greece's Olivia Newton John. When I read that, I had ch ills, like multiplying. But yeah, the Bourne rule measures probability of a particle's position. And it came on the quantum scene in 1926. And that says, oh yeah, that wave function that moves smoothly, it stops moving smoothly, it goes to zero everywhere except in the spot where you found the electron. What? Yeah. And so this this leads to a couple of questions. First of all, that's weird. Yeah. Why does that happen? I don't know. Yeah. Weirdness though is fine. The the real problem, the the contradiction, right? The the gap in logic is okay, we have these two rules. They're not the same rule. When do we apply one and when do we apply the other? Right. Because we need to know that, because they're not the same rule . The usual answer is oh, we use the Schrdinger equation when we're not looking, when we're not making the measurement, and we use the Bohr rule when we do. The problem is that the idea of measurement is really, really fucking vague. Yeah. Like, is it when I make a measurement? Does quantum mechanics only apply to me, Adam Becker? Like that that that can't be right, right? Does it work when a dog looks at an electron? Yeah. Right? Or or or you know, do you need to be like better qualified? This is bananas. It's completely nuts. And and the other thing is, like I said, electrons aren't the only things that have wave functions. This pen has a wave function. You have a wave function . I have a wave function. The universe has a wave function. You get a wave function. You get a wave function. You get a wave function. Quantum ontology. It's like the opera of the physics world. Was the wave function of the universe just waiting for billions and billions of years for someone to come along and and and suddenly collapse it and you know have the Schrdinger equation not apply? Like it's just not clear when one equation applies and when another applies. There are people who would say that I am wrong about that. These are the same people who tell you to shut up and calculate. If you ask them, if you pin them down and try to ask them, okay , fine, hot shot, when do you use one and when do you use the other? They're going to give you something that's either internally contradictory or that contradicts the idea that quantum physics is more fundamental than Newton's physics. Okay. Yeah. And now Oyve. Yeah. There's a lot going on. There is a lot going on. And so the notion of Do you remember Snephylophagus from Cespondi? I still remember Snuffylopagus. Is there a snuffhalophagus rule? Like He's only there when people who aren't big bird aren't looking. Yeah. Oh man. Big Bird is definitely not the the the prime observer of quantum mechanics. I can tell you that right now. Carol Spinney does not have like special quantum power. Big Bird, Big Bird, Big Bird. It's alright. No, it's not. Just side note, Carol Spinney is the actor and puppeteer who played Big Bird until his retirement last year. And also, did everyone else know his name and that he also voiced Oscar the Grouch, or do astrophysicists just have large brain buckets full of trivia? Where were we? Yes, okay. So the wave function that describes the place of a tiny particle collapses to a point when it's observed. This is wave function collapse. Does observing something make it exist differently? Okay, so then what does that mean for us? Like if I if I am a s a wave function until someone looks at me and then I'm not what does that mean for ontology, for the science and the study of being? Yeah. What is anyone? Yeah, it means that there's something we don't understand here. It means that the story is clearly not complete. It means that shutting up and calculating is good practical advice if you want to, you know, calculate stuff, but it means it can't be the real story about the world. Like that it is good to ask these questions because there must be something else going on. So the problem then is okay, what is that story of the world? And the answer is we have multiple candidates for a possible story of the world, an interpretation of quantum physics. There are multiple interpretations running around. There isn't a consensus about which one is the right one. Okay, so when it comes to quantum ontology, are we real? What are we? What is reality? How does it work? Why don't things add up between points versus waves? And why can't we detect or describe dark matter or dark energy? Nobody knows. But there have been scratch paper pads and whiteboards just chock a block filled with theories. Let's hear a few. Give me some of the top ones. Like is multiverse as one? Yeah, that's one of them. That's probably the most popular one, other than you know, the non-answer of shut up. That's a stupid question. So the many worlds interpretation, which was developed by this joker named Hugh Everett III in 19 in the mid-1950s, while he was a grad student in physics. He basically got drunk on Sherry one night with a couple of other physicists. And and then like basically develop this interpretation in part to like stick it to the guy he was drunkenly arguing with, who was an assistant of this guy, Niels Bohr, who's a big famous physicist. Okay, so Hugh Everett, who as a child wrote a letter to Einstein and got a nice response, and then later in his life sat in on some of Einstein's lectures, ran with his posse. So this Hugh Everett, oh, he loved booze and smoking and quantum theory, and he got his PhD in it, in the quantum theory at least. And Niels Bohr, who, by the by, was a big deal, Nobel Prize-winning quantum physicists, and one of like the folks who proposed the structure of an atom with the electrons spinning around it and parts of what became known as the Copenhagen interpretation that a particle exists in every position of the wave function until it's observed. Okay, so Everett, he was gently schmammered and arguing with someone from Neil Board's lab about Schrd inger's equation, which tries to find the probability of a particle at a certain point surfing that wave function when we look at it. Okay, so they're arguing. Everett basically said, look, what if it's just all Schrdinger all the time? Like, what if that's the only thing that plays on the quantum physics radio station? It's just 100% Schrdinger? What if that other thing, the Born Rule never comes in, wave functions never collapse. What does it mean to be wall to wall Schrodinger? Is that like boxed in by Schrodinger? Is a dead cat involved? Well to explain that I need I need to bring in like the most famous thought experiment in all of quantum physics, Schrodinger's cat. Yes. Right. So Schrdinger came up with this way before Hugh Everett. He came up with his cat in the 1930s to explain why he thought there was a big problem here because Schrdinger and Einstein and a couple of the other founders of quantum physics were really bothered by this problem. Mm-hmm. It got a special name later on, the measurement problem. They they were really, really concerned about this. They thought there was something missing from the theory. Schrdinger illustrated this by saying, look, you know, maybe quantum particles are weird. You know, maybe they can perform strange tricks. That wave function describing where you're gonna find an electron it's sort of smeared out over all of space, that kind of suggests that maybe the electron is in multiple places at once until you look. But who's looking? And what counts? Nobody actually knows. Anyway. So he said, imagine that you have uh a box, a sealed box, and in that box you have a very slightly radioactive, you know, lump lump of metal. And you have a radiation detector pointed at it. And you have this contraption set up so that when the detector detects radiation , it uh drops a little hammer that smashes a glass vial of cyanide. And there's a cat in there with this whole thing. So basically, if the lump of metal emits any radiation, the cat will die. Ooh, okay . So you put this all together, you seal the box and you wait like 30 minutes. And at this point the Schrdinger equation says, okay, look, the chunk of radiation that that could be emitted by this metal, it it either has or has not been emit ted. And so the wave function sort of says, well, it's been emitted and not emitted, which means that the detector has and hasn't been tripped, which means that the glass vial has and has not broken. So the cat in there is acc,ording to the Schrodinger equation, is is sort of part dead and part alive, or both dead and alive. It's in this state called a superposition, which is sort of generally the state that most things are in most of the time according to the Schrdinger equation. But according to the usual way of thinking about quantum physics, this sort of very unsatisfying and incomplete idea that you just shut up and don't think about what it means to measure. When you open the box, then the cat is either dead or alive. And somehow opening the box made that happen. And that's ridiculous, Schrödinger said, you know, maybe particles can be in one place or more than one place at a time . But cats are either dead or alive. And if you open the box and find a dead cat, then the minute before you open the box, the cat was either dead or dying. Mm-hmm. And if you open it and find a living cat, it's not like it was not entirely living before you open the box. Right. Alright, so remember our Sherry shithammered, fun-loving physicist Hugh Everett, arguing with the biggest fish in the physics pond that their Copenhagen interpretation was bullcock a horsepucky? Everett solved this problem a different way. Okay. Everett said, no, no, no, no, no. It's all Schrodinger all the time. So when you open the box, what's in the box? You know, the cat's both dead and alive before you open the box. And then when you open the box, you get entang led with the stuff in the box. Okay, heads up on this next part. Entanglement sounds like a boundary issue in an unhealthy relationship, but it's actually quantum physics and it's cool as hell. So Everett said, sure. So what that means is, you know, the box split according to the Schrdinger equation. And then when you open the box to look, you split into two copies. Hello John. Hello John. And the reason that you don't see both a living and a dead cat is because you split. And so each copy of you only sees one cat. One of you sees a living cat. Thank God. And one of you sees a dead cat. No . But both copies only see one cat. So then every time there is a decision it splits and splits and splits and splits. Yeah, it's this entanglement sort of contagious and ends up going through the the whole world. And so the whole world eventually splits into the dead cat and the living cat branches and this happens over and over again all the time. And so you end up with this massive collection of universes, a multiverse. Mm-hmm. What if there's three options? Because not everything's on a binary. That's right. Yeah. So then you get three copies. Or or what if what if you left the cat in there for fifteen minutes, right? So instead of instead of leaving it in there uh long enough that you had a fifty-fifty shot of finding a dead cat, you've probably got a living cat. Okay. Right? Sweet. So then there's two copies, but somehow you're more likely to be the copy that sees the living cat. Uh and and this is another part of the problem, right? Because quantum physics famously only gives you answers in terms of probabilities most almost all of the time. But the Schrdinger equation isn't a random equation. It's completely determined. So where do the probabilities come from? Well they come in when you use this other rule, the Bourne rule. Born rule to refresh, calcul ates the probability of measuring or observing a particle at a particular spot on the wave. One way of thinking about this is to say, oh, well sure, you know that when you open the box, you're going to split, but you don't know which universe you're going to be in when you open the box. You don't know which branch of the wave function that you're gonna be in. And so, you know, this this rule is about figuring out the probability that you're gonna be in the branch with a living cat or a dead cat. It gets really trippy. Yeah. Okay, well, so this is the many worlds theory, which is one of the ways that you could try to explain the inconsistency. What about your own life? Do you think about that when you are about to make a decision? Um Um you know , I I don't go through my life assuming that there are multiple copies of me. Well, so part of the reason is that I don't subscribe to the many worlds interpretation. I think it's a reasonable option, but I don't know that it's the right answer. I don't know what the right answer is. And I don't think I don't think anybody can say for sure that they know what the right answer is here because we don't have a good sci entific consensus on this debate. But I mean in my everyday life , I mean, I don't know. I think I'm a pretty regular guy. I just do things the way I do 'em. You wouldn't be like, well, I might as well make this risky choice because somewhere there's someone making the less risky choice. I'll have the puffer fish. Yeah, that's not that's definitely not how I approach my life. I do not recommend that anybody do that. Do not try that at home. Okay. Yeah. Um does it ever you're you're a young guy. Does it ever uh does it ever trip you out that like in our lifetime you, may not figure out what's up. Yeah. Yeah. I mean that is frustrating, right? Because like you asked me, again, we're on a couch talking about my childhood, but um you asked me about, you know, what got me interested in this stuff in the first place. I wanted to know what was going on, right? I wanted to know what was up. This is why I keep saying, you know, it's fine if our theories are weird. We live in a weird place. There are so many weird things about the world. Have you seen a platypus? Like, like, have you have you seen this is this is one of my favorite examples of like just a weird thing in physics that has nothing to do with quantum anything? Have you done that demo at like a science museum where you sit in a in a spinny chair and you're holding a bicycle wheel and then you flip, you flip it upside down, and all of a sudden you start spinning? Like, that's weird. And the wheel feels like it's fighting you. What the fuck is going on? Like, there's a good answer there, right? So, like, this is just a strange place, and I want to know what's going on in it. So, on the one hand, yeah, it's frustrating that we might not know, but on the other hand, it's kind of amazing that we don't know, right? Like we have been doing science, we have been thinking about this stuff for a long time. And every time we discover something new, we find more interesting questions. And this is a complete cliche, and I'm not the first person to say this, but the ide a that that there are such fundamental things in the world that we do not understand that we we don't know why these things happen we don't know what what like the nature of the world is. And we are in it. We are of it. One of the great illusions that being hum an, and especially being human here and now in this culture, like sort of fosters, is this idea that somehow we are separate from the world. We are of the world. We are pieces of the world. This is one of the things that's so frustrating about this idea that oh the rules are different when you measure. What's I'm not special ? I'm of the world. Like I don't there are not different rules for me than there are for anyone else. I'm a piece of the world. I'm part of the world. So are you, so is everyone. We are all of a part with this strange and wonderful place that we live in. And it is not clear how any of this works. Well, what are some other theories? Okay, so we got multiverses, multi-many worlds. What are some other leading theories of what the hell's going on? Okay, so so another one, um, and this is really gonna piss some people off if I describe this as a leading theory, but it totally is and they're wrong. Um there's there's so much controversy here. There's like it's there's so much drama. Yeah um this is this is a lot of what drew me to this once I realized like there's so much weird stuff in this area and this unresolved debate, I I I started wondering, okay, why is it unresolved? And it turns out a lot of it has to do with just like debate and interpersonal drama between really interesting people. Um and then I I tried to find a book about it and I couldn't find one, so I wrote one Another leading theory is this uh it's this thing, it goes by several different names, but I I I like to call it pilot wave theory. It's this idea that when you're you know when you're talking about you know, where is that electron, it is in a place before you look and when you look you find it there it is but there's a wave that's associated with each particle and these waves sort of guide the motion of those particles. And that wave is sort of associated with that wave function that we were talking about before. And one of the things that really clued physicists in in the early 20th century to something really profoundly strange going on was that they found that things that they thought were waves sometimes acted like particles, and things that they thought were particles sometimes acted like waves. Yeah. So like something that you thought was in one place suddenly like started rippling outward like a wave, something that you thought propagated like a wave and could ripple out and do all those weird wave things, uh suddenly was acting like a baseball. Like it just really weird. So this is sort of a puzzle. Like how can particles act like waves and vice versa? What's going on? Why does everything seem to have both a particle and a wave nature? And the answer in this theory, the pilot wave theory is: oh, that's because there are particles and waves, and every particle has a wave associated with it that determines how it moves. And so that sounds really simple and really cool. Um there are problems, right? There's problems with everything, right? Uh otherwise there'd be no controversy. The first issue, though I hesitate to call it a problem, is remember entanglement? You know, when when things get when things interact, they they start sharing a wave. So when you have uh two entang led particles, one particle uh say that they're entangled and they go flying off in different directions, one of them is way over here, and one of them is way over there, right? Like one of them is in Mississippi and one of them is in Calgary, right? Okay. Then the one in Mississippi, if it moves a little bit, that's going to affect the pilot wave that guides the particle in Calgary. Instantaneously, immediately, it happens faster than the speed of light. So that's weird. Especially because, you know, we can prove in the math of the theory that that's what happens, but you can also prove that you can't use it for signaling. You can't send messages faster than the speed of light this way. Okay. So so somehow there's this subtle connection that we don't see direct evidence of. When I said we don't see direct evidence, we do see evidence, but it's it's it's indirect evidence, it's evidence that they are connected it you can't you can't use that connection you know like no one would dispute that they were connected if you could use one to instantly make the other one you know send a message but that's not how this works. So in the pilot wave theory, there's not a wave or a particle. There's a wave that the particle is kind of surfing, and it can affect the particles in numerous superpositions. But it would be faster than light, which really irks some people because old Alby Einstein's relativity says nothing is faster than light. So he didn't like that. Also, Adam says. This was developed a basic idea was developed by one of the founders of quantum mechanics, a guy named Louis Dubois , in the late 1920s. But then he was convinced by some other physicists that it couldn't be right. He dropped it. It was independently rediscovered by another physicist, David Bohm, in the early 1950s. And he sort of fixed up the problems that were with it, uh, that that Du Bois had sort of left and like sort of made it a fully fledged theory and published it and then he his life like descended into a living nightmare for mostly unrelated reasons. Like he yeah he got caught up in the Red Scare in the 1950s. Um yeah, he he got he got blacklisted. He ended up being effectively exiled to Brazil. Uh then the US government confiscated his passport, so he is trapped in Brazil. Like there's a whole it's it's like a movie. It's like a friggin' spy thriller. Oh my god. Um like dude got the fucking short end of the stick. Okay. Whew now this guy's life. My word. He had his own work at Berkeley confiscated and then classified so he didn't have access to it so that it could be used on the Manhattan Project. And he eventually in his 70s had to have electroconvulsive therapy for depression and just the saga and the drama of his life and political affiliations affected the reception of his work, sadly. Okay, but one hiccup is that the particle surfing a pilot wave doesn't work with other theories, like the relativistic quantum field theory that explains what happens when you smash particles together in a nearly seventeen mile particle accelerator tube underground, which, as discussed in the cosmology episode with Dr. Katie Mack, is not called the hard-on collider. No one has found a way to unequivocally take that theory and reframe it in terms of this pilot wave stuff. That doesn't mean it's wrong. It just means that if it's right, the job isn't finished . But there are a lot of physicists who don't like this stuff for that reason. And because it's got this weird tangled history. So yeah, uh, so that's another option, is this pilot wave theory. Um , there are lots of other options. How often do you think people get stoned and come up with their own theories and email physicists? Oh, well, I can tell you that that happens a lot because I get a lot of those emails. Some of those people, by the way , I think are not stoned. I think that there could be like an interesting psychology paper done here. Oh man, I'm gonna get some hate mail for this. Um, that like being an old retired white male engineer must have some effect on the brain that is similar to like cannabis or alcohol or something. Because those people, I'm pretty sure they're sober and they send me all sorts of wacky stuff all the time. And it's not correct. Do you have a favorite? Oh my God. Any simulation theories? Uh yeah, I definitely get those. I also get, you know, Einstein was wrong and complete fraud and here's why and I'm the only one who found it. Um and I'm like Galileo, I've been persecuted, right? There's this there's this thing called the crackpot index online, which uh basically you assign more and more points to a crackpot email depending on like what kinds of claims they make. Okay, side note. This crackpot index is indeed a real thing and it was published in nineteen ninety eight by a mathematical physicist John Bias. And one score is determined by points, with infractions being five points for each word in all caps, ten points for mailing your theory to someone you don't know personally and asking them not to tell anyone else about it for fear that your ideas will be stolen. Ten points for each statement along the lines of I'm not good at math, but my theory is conceptually right, so all I need is for someone to just express it in terms of equations. Ten points for each comparison of yourself to Einstein, twenty points for emailing to complain about the crackpot index, twenty points for suggesting that you deserve a Nobel prize, thirty points for claiming that your theories were developed by an extraterrestrial civilization. And I think the worst thing on that index that you can do is compare yourself to Galileo. In that vein. We're gonna create simulations that are indistinguish indistinguishable from reality or civilization will cease to exist. Those are the two options. But and now what about a simulation? Okay. Um what if the reason why we cannot reconcile the wave versus the particle and the born versus the Schrodinger. What if that is because it's all fake? Right. So so a couple of things there. First of all, you'd still need to have rules. Like if it's a simulation in a computer, like any computer we know, there's still rules that the simulation runs on, right? So, and that that means that there still has to be some intern al logical coherence, right? It can't contradict itself even if it's weird. So there's that. But more more importantly, and I don't know, I don't know if you're gonna like this answer. Um I think that the simulation thing is kind of not kinda no I'm not gonna miss words. Simulation thing is fucking bullshit. Okay. Um it's fucking bullshit and here's what. Um and and this is gonna take like a sharp left turn. Okay. Um it assumes that that's something that it assumes that that's a thing that you can do, which we still don't know that you can do that. Um and it and it also assumes that um and I guess I'm what I'm really talking about here is this argument that that we almost definitely live in a cer a simulation, right? Like there are those people who say, no, no, no, no, we definitely live in one, like almost certainly there's almost no chance that this is like the base reality, whatever that means. Um I really think that's wrong because it assumes that technology progress it assumes a lot about the future progression of technology, but it also assumes that technology always progresses through like the same inevitable stages. It assumes a lot about history and culture and the nature of life and intelligent life and intelligence itself. And I think that basically all of those assumptions that go into that argument, that fuel that argument, are hopelessly myopic. They're just like completely blinkered and narrow-minded about like the wide variety of ways that that things in the world can be and that you know technology and civilization and culture can be, even in this world here and now, like it's a very, it's a very Western-centric, male-centric, white-centric, rich-cent ric argument that, you know, basically, yeah, no, the inevitable cr progress ion of any intelligent being in any logically possible universe is basically gonna be like a rich white dude born between 1970 and 1990. Yeah. Like and that's some fucking bullshit. Yeah, that is bullshit. Yeah. So I and also I've been using maybe everything's a simulation as an excuse for why things are bad. But I shouldn't do that, right? Yeah, I think I think like two things. First of all, you shouldn't do that. Okay. So yes, clearly we can't look at global warming and agonizing political situations and forest burning and that time you farted in ninth grade history class and people having cancer and being driven from their homelands because of greed, just as a video game gone wrong, and that we should give up and fold our hands in our laps and just wait for the apocalypse or the game over screen. Second, even if this is a simulation, the suffering is real. Yes. I am suffering. Yes. You are suffering. True. We gotta fix that shit. Yeah. A lot of people out there, real suffering. Yeah. We can't just shrug it off as it's all a video game. Yeah, exactly. Right. Do you think that we're real? I mean , yeah. I mean, I guess it depends on what you mean by real but for any like good meaning of that word, sure, we're real . Yeah. I mean, uh uh say that say that it is a simulation. Say that everything I said was wrong. Say that there's some other universe with other laws of physics and other beings, and for whatever reason, they decided to build this simulation , like to build a computer, and inside that computer, like there's a simulation going on, and we're in there. We're real, we're in that simulation. We're really in that simulation in that scenario. Like there are there are real entities in that simulation that are you and me and all the things around us, even if that's not how the programmers think about it. Like I am having experiences here in this simulation, and I have a hand over here and I'm waving it around and I'm banging it on the edge of the sofa. Like that's all happening. Does the actual structure of the world at its most fundamental level look anything like the way we think it lo oks? Probably not. Uh whether or not we're in a simulation, I think that's wrong. Okay. But does that mean that we're not real? Absolutely not. You know, um okay, so so here's the thing. I think everyone, I hope everyone can agree that temperature is a real thing. Like things have temperatures. You know, I can I can take my um my cool nerdy infrared thermometer and point it at the wall and, it will tell me that the wall is 74.6 degrees Fahrenheit because we live in a country that doesn't know how to measure temperature. But the thing is, temperature, according to our best understanding of temperature in physics, it comes out of thermodynamics, which is itself something that comes out of statistical physics, a really, really interesting field of physics. Temperature is an emergent property. It's not a property that individual subatomic particles can have . It's something that only aggregate collections of stuff have. So one molecule can't have a temperature, but a group of them can because they're all moving around. So atom likens temperature to existence and asking the question: Are we real ? These things in this world around us can emerge out of that lower level in the same way that temperature is a property that emerges out of the lower level, you know, little jostlings of tiny things because that's where temperature comes from. It's, you know, a tiny object, a tiny piece of that wall is moving around a little bit. And all that jiggling together comes out and looks to us like temperature. That's a real thing. That wall is actually a temperature. Um, and we are here and we are having this conversation, even if you know the perception that there is such a thing as space and time is something that emerges out of some lower level of reality, there's still a space and a time that we're in, even if it's not fundamental.. All right You've not let me get off the hook about existing and I still have to like do all my bullshit and get through my to do list and like I can't. Okay, can I ask you Patreon questions? Oh yeah, yeah, let's do it. Are you ready? Uh I mean ha I'm I'm never gonna be completely ready. Right for the weirdness that is Patreon. Yeah. Hi Patreon. That's the right answer. But before we get to your genius and weird and dry and perfect questions submitted on Patreon. Each episode we donate to a charity of the allist choosing. This week, Dr. Becker chose Tech Bridge Girls, which excites, educates, and equips girls from low-income communities by delivering high -quality STEM programming that empowers a girl to achieve economic mobility and better life chances. And Tech Bridge Girls was one of the earliest organizations to focus on introducing girls and marginalized communities to the STEM fields, and it's based in Oakland, California, where Adam lives. So that's techbridgegirls.org. That donation was made possible by sponsors of the show, and so you may hear some words about them right now. Listen, times are weird. One of the things I do to cheer myself up is nail lacquer. I like looking down and my nails look beautiful and slightly threatening. That is why I'm obsessed with Mooncat. If you're not familiar with Mooncat, first of all, welcome. All of their nail colors are like art in a bottle. They have a collection. It's a 2026 spring collection called Deadly by Nature. It's science. It's creepy. It's everything I love. And the shades are inspired by some of nature's most deadly and misunderstood animals and plants, like the Black Widow spider, deadly nightshade, snake venom, death's trumpet. Ugh! They also have their first ever solar nail lacquers, which change colors when exposed to sunlight. Why am I yelling at you about it? I just am excited. I want you to see it also. All of their nail lacers, by the way, are vegan, cruelty-free, tan-free. When I opened this box of Mooncat nail la ckers. It felt like my birthday. I thought, who invented these colors? And how do they know my soul so well? My fingernails, my toenails, never before have they represented what's in my heart. You can discover the full collection now at I don't know how they do it. This podcast is brought to you by Squarespace. If you haven't heard me gushing about Squarespace for years, it's an all in one website platform. Whether you're trying to grow a business you have , or if you're just a baby business getting started, it has everything you need. That's where I secured my domain name. It helped me build a professional site. I can update it so easily. I've been using Squarespace since before Oligies existed. After procrastinating for years, I literally built my website in one evening. They have templates, they have flexible editing tools. Squarespace also makes it easy to share your work. You can book clients . You can get paid. They have built-in tools for scheduling and invoicing and email all in one place. 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Millions of business owners rely on Spectrum Business to keep them connected. I myself am a spectrum business customer. This show would not get to your ears without spectrum. And I have totally different needs than someone who has a different kind of business. I need fast internet, I gotta upload, I gotta download quick. There's also mobile so I could go work out And they've been very helpful. So it's working for me. Visit spectrum.com slash business to learn more. That's spectrum.com slash business. Restriction supply, services not available in all areas . Listen, sometimes you get out of your routine. That happened to me recently when I went out of town and I realized I forgot my ritual. Essential for women eighteen plus. It's a multi that I've been taking for years. And guess who landed in another country without them? Me didn't feel right. They contain nine key nutrients, two delayed release capsules designed for optimal absorption. But ritual, why do I love them so much? 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So that's q uin ce.com slash ologies for free shipping and three hundred sixty five day returns coints dot com slash ologies Okay, back to your questions. Travis DeMello wants to know: how does quantum stuff relate to nature? What is its role beyond technology? Oh, I mean, that's a great question. Um quantum physics explains a huge variety of natural phenomena. Like without quantum physics, we wouldn't understand why the sun shines. We wouldn't understand how our eyes can see that the sun shines . We wouldn't understand, and I mean this in the most general way possible, the phenomenon of solid ness. Like we wouldn't understand not only why I'm not passing through this couch right now, but why my bones are solid at all in the first place . For more on that topic, you can see the osteology episode about bones. Just saying. Quantum physics is necessary for understanding um uh uh where the periodic table of the elements comes from and the idea of molecular structure. So all of chemistry and thus all of biochemistry and thus all of life. So quantum physics explains, you know, uh or has a really important role in explaining almost every single possible natural phenomenon. So it's important. Yeah, just a little. So a bunch of folks asked about existence and what it really means and why, such as Wendy Lockhart, Sarah Piette, Matthew Thomas Hill, and Sam Gordon who wants to know how do you deal knowing what you know about existence. And Christy Stewart wants to know why does it matter if we exist or not? Humans are curious. If we're gonna try to engage in the dangerous game of coming up with fundamental human behaviors that are true across cultures. I do think that curiosity is a really good candidate for one. And also, more generally, and this is me stealing from my book um so uh the ide as that we get from science the picture of the world that comes with our best scientific theories it filters out into the wider culture. Science is not a separate human activity from the rest of the human world. It is of a piece with the rest of human activity with art and politics and and and music and uh and you know, the social sciences and the physical sciences and the biological sciences, these all form a unified whole. And so the pictures of the world that come from science not only go out into the other sciences, but out into the wider world. Like a really, really simple and facile and total white dude example. Um, if Copernicus and company had not uncentered the Earth and shown us that no, the Earth is not at the center of the universe. It seems hard to imagine that Charles Darwin or Chucky D to his friends and company would have had the audacity to suggest that humans are not at the center of biological creation, right? And and instead that we're just another ape, just another organism in in a giant tree of organis ms. And without both of those changes in the way that we think about the world, I mean, first of all, you can probably come up with your own examples here, but without both of those changes, Stanley Kubrick wouldn't have been able to film 2001 , right? All those all those apes at the beginning and you know the like come on, that that wouldn't have happened. And there's lots of other art and culture and and just important things that have happened because of our scientific theories and vice versa. Samuel Ball wants to know, has the impossible issue of tunneling been solved yet? Or are there any good theories out there? What is tunneling? What is tunneling? So tunneling So the short answer is um in classical physics, um if I put my hand on this table and leave it here, um then it will just sort of stay on top of this table. But in quantum physics there's a small chance that my hand will suddenly pass through the table. But it's phenomenally unlikely because my hand is is quite large, and the probability of that kind of tunneling has to do with, among other things, the size of the object involved. For tiny objects, tunneling happens all the time. In fact, if tunneling didn't happen, the sun would not shine. So we know that tunneling happens. Tunneling is not more strange than the rest or unexplained than the rest of quantum physics. So if you can get a good picture of the world that comes with quantum physics, you get tunneling for free. Ooh. I didn't know what tunneling was until right now. I thought it was maybe something that uh college kids did at party . Um It does it does kind of sound like that. This next question about something that we keep in our pants pocket was asked by patrons Julie Bear, Will Matlack, Jess, CJ Stewart Hodges, Mike Roch, Courtney Markham, Ewen Monroe, Michael Preston, who wanted to know why we should give a rat's left ear about the topic, Philip Wayrie and Spencer wants to know, no matter how much I research, I don't understand quantum computing. Is there an easy way to understand it? Also, we'll all Also will quantum computers replace all computers eventually, like our phones, or just supercomputers? Yeah. So I'm gonna I'm gonna take the second part first. Okay. Um I I I don't think that anyone who works seriously in that field thinks that quantum computers will ultimately replace all computers. Okay. Um I don't even think that they're gonna replace all supercomputers. There are things that n n classical normal computers can do better than quantum computers and vice versa. Okay. And I don't think that that's going to change. Um also let's explain what a quantum computer is. Also let's explain what a quantum computer is. A quantum computer is a computer that harnesses some of the strange and no that's not a good way of saying it, right? Because the usual way that people say it is, oh, quantum computer is a computer that runs in quantum physics. Everything runs on quantum physics, so all computers run on quantum physics. Um then people say, oh, quantum computer is a computer that uses, you know, special properties of quantum physics to do you know certain computational tricks. That's not specific enough either because semiconductors, which are what like the computer in your lap are and and in my pocket and like all computers are built on, basically. Semiconducting itself is a quantum property. Like you can explain, you can't explain that without quantum physics. A better definition of a quantum computer is a computer that uses specific quantum properties like superposition and entanglement to perform certain computations that normal conventional computers cannot perform as quickly in that way. So it's using the superposition of say positive negative here there as kind of a replacement for the the binary one zero zero one zero. Yeah. And so it can go much faster because it's at an elemental level. Sort of. I mean it can do some things more quickly. Um basically instead of having a a bit that's either one or zero you can have it in the superposition. Okay. Um and then you can take advantage of some of the wave properties of matter to give you a speed up for certain kinds of computational algorithms. The more specific you get about this, the more wonky and less cool it sounds. Okay. It is, I assure you, very cool. Okay. Also, if you've been seeing the words quantum supremacy lately, thank Google. So in late 2019, just a few weeks ago, Google announced that their quantum computer , which looks to be about the size of a spall chandelier that dangles in a cryo chamber colder than outer space, is named Sycamore. Well, the processor, a small chip, is Sycamore, but it needs all those kind of sparkl y golden wires to function. Anyway, a team out of University of California Santa Barbara's labs just published a paper revealing that Sycamore had solved a math problem in 200 seconds. So way to go, Sycamore. Who cares? Well, a lot of people. Because that same math problem, when beep booped by an existing supercomputer, would take years to solve. How many years, you wonder? 10,000 years. So what would take a supercomputer? 10,000 years to calculate. Sycamore did it in 200 seconds, like three and a half minutes. So quantum computing, it might save us. It might kill us. Either way, get hype. But so you don't think that it's gonna replace all supercomputers. I don't think anyone serious in the field thinks that. I mean, there are people who know a lot more about quantum computers than I do. My book is uh I mention quantum computing, I talk about it briefly, it's not primarily about that. I I I do touch on it because it's important. But but I have talked with a lot of people who work in that field. I don't think anyone thinks that. So I I unless everyone's wrong, I don't think that's gonna happen. Okay. Um, Jennifer Coyle wants to know: a therapist once suggested to me that one day a physicist will prove the existence of God. Thoughts . Get a new therapist , fire your friggin' therapist. She is she on mushrooms? Yes, no. I don't know. This is a safe space. You can tell us if you think your therapist is on mushrooms. Um, yeah, I I know. Okay. That's gonna be a no from you dog. Yeah. Got it. Okay. Old Uncle Dad word here popping in to say everyone is entitled to their own spiritual beliefs. Just so long as it's not oppressing or screwing up other people's lives. But if you're wondering if scientists tend to be atheists at a higher rate than the general public, that's a yes. Uh Rice University Sociologist Dr. Elaine Howard Uckland had the same question, and in her 2010 paper , Science versus Religion, what scientists really think? She crunched the numbers. So only two percent of the general US population says I don't believe in God, but over a third of what she describes as elite scientists are atheists. But Uckland continues, 22% of the scientists who identified themselves as spiritual also described themselves as atheists. So wait, huh? What is a spiritual atheist? Dr. Uck land, interviewed a one biologist who described spirituality this way, said that feeling you get by the seashore looking over the endless expanse of water, or the feeling you get considering the age of all things in existen ce and how long it could go on, sort of an awe at the totality of things. If that's what spirituality is, then I get it, said the biologist. So well the narrative of what's controlling our existence. Is it a sentient, shadowy figure in a cloud watching over us, getting pissed when we lie? Or is it chaos, mixed with chance, mixed with logic, and a heavy proportion of mystery? Those sources may change. They might be different for each individual, but in the end, perhaps what matters most is the awe that keeps you inspired and the respect that you show to the fellow lumps of molecules with whom you share the universe. Or maybe it's all a video game. Are we real? Probably, but nobody knows. And that is why quantum ontology is cool. Favorite uncertainty principle joke? Yes. Hi, me again. So the uncertainty principle was drafted by German physicist Werner Heisenber g, and yes, Breaking Bad's Walter White took his alter ego name after this very renowned physicist, who, Adam explains in his book, had a deep loyalty to Germany and was the head of its World War II nuclear program. Gross. Anyway, the uncertainty principle theorizes that when it comes to a particle, its momentum and location cannot be known at the same time. An atom remains on the spot for a good uncertainty principle joke per listener Julie Bear. Um Julie Bear wants to know favorite uncertainty principle joke. Yeah I mean God God, they're all just flying out of my head right now, except for the most boring one. The most the most boring one is i i the this is I yeah, I apologize to physicists who are listening. You've all heard this before. Um, and and probably the person who has this. Um uh cop pulls Heisenberg over for speeding and says, you know, sir, do you know how fast you were going? And he says, no, but I know exactly where I am. Amazing. Yep. Isabel B. Holper wants to know which movie or TV show gets it best ? Ooh . Like just quantum in general, which movie or TV show gets it best? How does Quantum Leap do? Uh oh man, Quantum Leap. Quantum Leap has almost nothing to do with quantum physics, but I watched that show so much growing up. It was a good one. Yeah, it was good. Theorizing that one could time travel within his own lifetime. Dr. Sam Beckett stepped into the Quantum Leap Accelerator. What about what the bleep do we know? Julian Hoppel wants to know. Are people affecting the world of reality that they see ? You betcha they are. What is reality? What is reality? Have you ever thought about what thoughts are made of? It is so mysterious you can't explain it. Oh really? Uh what the bleep do we know is um okay, so take it out of what computer you've got it in, put it on like a thumb drive that you don't care about, set it on fire, bury it. What the bleep do we know is wrong about everything? And the people who made it are malicious. They tricked a friend of mine who is in that movie. They tricked him into participating and then they misleadingly edited his contributions to make it sound like he supported their crazy stuff. Also they are literally a cult. Oh no, okay, so you heard it here first. Okay, this next one is about string theory. And as patron Nick Rinders inquires, string theory. Come on, what the fuck? That's an excellent question, Nate . I will attempt to summarize it in the smallest, jankiest nutshell I can. String theory is that particles are actually teeny tiny tiny tiny strings, which means that there could be more dimensions . And also, string theory may unify Einstein's theory of relativity about gravity with the other quantum physics that just do not comply. In his book, Adam writes qu,ote, string theory do esn't describe a single universe, but instead describes a string landscape, a phenomenally huge number of possible universes, ten to the five hundredth power or more, quote. So what is happening in all those universes? Is my dog there? Am I still wearing this yellow sweater? And does string theory finally reconcile the other theories that don't mesh together? Is string theory the dongle that all of science is waiting for? Kitty Helverson also asked about it, as did. Graham Tattersall wants to know string theory, flimflam or science? Sure seems like science. Okay. Amanda Jay wants to know does quantum physics have anything to do with our consciousness? Yeah. Because it has something to do with everything. Yeah. So, so, so, yeah, on the one hand, sure, right? So it was sort of like put putting my cards on the table. I see no reason to think that consciousness is not something that arises purely out of you know the behavior of neurons in our brain. Okay. Um I think there's a lot of good evidence for that. Um our neurons are made of subatomic particles. Those subatomic particles are governed by quantum physics. So in one sense, yes. But there's often another sense that people have in mind when they ask this question. Okay, real quick. Remember Schrodinger's cat? So if you observe or measure it, it flips to one position. Mew mew. Or oh no . But what's measurement, right? What counts as measurement? Some people will say things like, well, maybe consciousness counts as measurement. Maybe it's when a conscious being interacts with a thing. Maybe that's what measurement is in quantum physics. Um , a couple of things. First of all, that still leaves you with this problem of okay, but but does that mean that like the wave function of the universe was waiting for a conscious being to come along? Also, what is conscious? What do you mean by consciousness? What counts as conscious? You still have that problem. Yeah. Uh it really seems like a very human-centric view, and I am always really wary of human-centric views. There is a mystery in human consciousness, right? Or or there seems to be one. Like, you know, what is human consciousness? Where does it come from? Sure, you can have different views on how consciousness works and what it is, and like there, there whether or not there's even a mystery there, but I do not see a compelling reason to To invoke consciousness in quantum physics, given that there are alternatives. And I do not see why we would say that it is more related to quantum physics than to any other, you know, issues in physics. Like the I don't think that consciousness plays a more special role in quantum physics than it does in any other area of physics. The question of consciousness, sure, whatever. That's a that's a good question. We can have interesting conversations about it, but it I don't see it as related to these questions about quantum physics. Catherine W. asked Adam, what does an average day of your life look like? So as an author, he took me through his process of writing the book, which is so, so, so helpful, no matter what you're working on. And earlier off mic, he had mentioned that he has ADHD. You can see the molecular neurobiology episode with Dr. Crystal Dilworth, where we touch on that. And so these are his secret tips on how he accomplished these huge goals. This is earnestly life-changing. I love this. What was the process of writing the book like? Uh so first it was abject terror after I got the contract because I you know, like after I I I finished partying, right? I was I I realized I was on the hook for ninety thousand words and I'd never published anything longer than about three thousand. Uh, so that was completely fucking terrifying. I had a history earlier on in my career of having difficulty getting work done and getting it done on time or getting it finished. Um, and I I had by that point, you know, moved past that. I'd finished my my degree and whatnot, but it I still had this mental image of myself as someone who had difficulty getting work done on time. And so it was really extra scared. Um , but I I decided okay, the only way that I'm gonna get through this is if I plan it and then just only pay attention to whatever's in front of because uh I can't write 90,000 words, but I can write 600 words a day. And if I do that for a while, eventually I'll have 90,000 words. Um Um so so yeah, so I outlined it and I went over the outline with my publisher and they liked the outline. Um, of course it changed, right? No, no plan survives contact with the editor. Um so for each chapter, I'd outline the chapter and then I'd just sort of work through that outline and write a really shitty first draft uh and try to do 600 words a day. And what I do is I would do 50 minutes on and 10 minutes off. And in the 10 minutes off, I wouldn't look at anything with a screen and I wouldn't read any non-fiction. I would I read exclusively novels and that really helped my brain work because I found that if I didn't read at all, I couldn't write. Because if there's nothing going in, nothing's gonna come out. Right. So I I would write six hundred words a day and then get this shitty first draft done and then walk away from it and then come back and clean it up and fill in all of the blank spots where I had, you know, where I knew I had a quote, but I had to find the quote and stuff like that. And things would change. And then eventually I'd have a chapter draft that I wasn't embarrassed about. And then I'd send it to my editor and move on to the next one. It was terrifying. There was a lot of research involved. There was a lot of running around and interviewing people, like a lot of people. If you look, if you look in the references there, the very beginning of the references of the book has the list of interviews I conducted. I think it's like 42 interviews or something like that, most of which were in person. Isn't that Answer to the Universe? It is. I don't know if it's actually 42. I know I know that it's like it's somewhere around 40. Okay, at this point in the interview, another ologyist had stopped in to record, and I'm gonna make you wait to find out who it was, but we counted his list of interviews in the back of his book and I love Hitchhiker's Guide to the Galaxy. It's 42! It is 42, yeah. So yes, it was indeed 42 interviews. The answer to the ultimate question of life, the universe and everything is 4 2
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