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SGU Episode 1011
November 23rd 2024
1011.jpg

A cosmic silhouette presents the mysteries of the universe and celestial wonders.

SGU -1                      SGU 1

Skeptical Rogues
S: Steven Novella

B: Bob Novella

C: Cara Santa Maria

J: Jay Novella

E: Evan Bernstein

Quote of the Week

"There is only one thing worse than coming home from the lab to a sink full of dirty dishes, and that is not going to the lab at all."

Chien-Shiung Wu (Experimental Physicist) - Her nicknames include the "First Lady of Physics", the "Chinese Madame Curie" and the "Queen of Nuclear Research"

Links
Download Podcast
Show Notes
SGU Forum


Intro

Voice-over: You're listening to the Skeptics Guide to the Universe, your escape to reality.

S: Hello, and welcome to the Skeptics Guide to the Universe. Today is Tuesday, November 19th, 2024, and this is your host, Steven Novella. Joining me this week are Bob Novella. Hey everybody. Cara Santa Maria, Howdy J Novella, Hey guys. And Evan Bernstein.

E: Good evening everyone.

S: How's everyone doing? We're recording a little bit early because we're getting ready for the Thanksgiving break. I'll be going away this weekend.

J: Yeah, I'm going to see my family in Denver.

S: Yeah, Ross, this is the holiday where the novella guys are all splitting up. I'll go into our end. Don't.

E: Worry I'll hold down the state for you. I'll be remaining. Thank you. I'll take care of things.

S: Just leave the keys, she's all set.

C: I'm going to Oregon, Oregon, Oregon I.

E: I always mispronounce or Oregon.

S: It's Oregon, right?

C: They don't.

S: They don't want to say Oregon.

C: No, it's Oregon.

S: Org, Oregon.

E: Org that you know and that and that's the people of the state who get to decide that right and get to so I suppose that's fair.

S: So I know you guys have heard about the fact that The Onion has acquired, yeah, Infowars.

J: I mean how? Wonderful. Is that?

S: Well, there's a wrinkle. Did you guys hear the wrinkle?

E: No.

S: What happened? No. It's being contested, of course.

J: OK.

S: So as you just as a quick review, Infowars is the media outlet of Alex Jones, who got sued for lots of money, has to award like $1.5 billion to the families of the Sandy Hook massacre because of his, you know, hateful conspiracy theories, right? It 1 little bit of justice in the world. And to pay off the money he owes, they're selling off his assets, including Infowars. And so that just was up for auction and and it was purchased by The Onion or the parent company of The Onion. Global Tetrahedron is the name of the parent company and they plan on launching it as a basically satire of itself.

US#02: That's amazing.

S: Sometime next year it would be amazing, totally amazing. But a company affiliated with Alex Jones is claiming that the bidding was not fair, that they did not have a fair opportunity.

C: Whatever.

S: To yeah, to make a counter bid. So now it has to go before the judge and hopefully this is just all a waste of time and it'll still happen.

E: A stall tactic. The.

C: Judge is not going to allow a company affiliated with Alex Jones to buy the company.

S: Well, their argument is that the goal of the bid is to get as much money for the families as possible, and so if they have a higher bid, the judge should honor that. It's not.

C: Then are they just going to turn around and give it back to Alex Jones?

S: Well, they could. I don't know. Hopefully you know this won't sink the the deal because it would be awesome if the Onion gets gets Infowars. Also, you know the people who sued Alex Jones who are getting some of the money essentially gave the Onion some of their money to to get the bid up enough to win.

C: Oh, interesting.

E: So they're investors in a sense, yeah.

S: I guess so, yeah. Because they wanted this to happen, right? And they wanted to keep it away from Alex, you know, sure.

J: Affiliated with Alex Jones.

E: OK. All right. Well, yeah, it sounds like a delay tactic more than anything to me.

J: Yeah, I mean.

E: I don't know.

J: I think they legitimately want he wants to get it if he's got the money. I don't know how much they paid for it, but I mean, it's, you know, look, people just don't people will throw lawsuits out there like crazy today. You know, like, right, it's all BS. Like he didn't, he didn't do it. He lost it. He wasn't on his game Whenever the problem was the time came and the time went. It's all, you know, forecasted. It's not like they, you know, secretly put it out like it, it was in the public eye. That's it.

S: Yeah. We'll, we'll, we'll update you on if there's any. I think it's going to be code before the judge next week.

J: Yeah, well.

E: OK, quick resolution. Let's go.

S: Hopefully there'll be a good quick resolution.

News Item #1 - Sense of Self (03:52)

S: All right, well, let's get into our news items because we have a great interview coming up later in the show with Kevin Falta, if you want to leave time for that. I'm going to start us off by talking about giving robots a sense of self.

E: Oh, don't do that well. Just throw that brain circuit in there. I've seen too many movies where that didn't work out as intended.

C: But don't they need that for like, I don't know that embodied kind of?

S: Yeah, that's the question, Karen.

C: Right.

S: So there was a recent paper published by three, three experts. 1 is a is a robotic, a cognitive roboticist, right? So they deal with AI that controls robots. Another one is a cognitive psychologist who specializes in human robot interactions. And the third was a psychiatrist. So they wrote a paper talking about the fact that we should be studying the elements of a human sense of self, the components that make that U in robots. And then we could then do research on those elements in the robotic, you know, model to break this down. What's interesting about this, what I found interesting about this, obviously my neuroscientist, I love, you know, the cognitive neurosciences, and I also love robots and AI. So it's all comes together. But I've been saying for years is that AI is going to be a fantastic way to study neuroscience, right? Because it essentially gives us an actual model that we could mess with. You know, like what happens when we take this component down or what happens when we dial this all the way up or whatever. We could see how the pieces interact with each other, but first we have to know what all the pieces are, right? So this is they're talking about what are the pieces of a sense of self do you guys have? I mean, I've spoken about this before, but do you guys have any guesses? Like, what do you think would be something very specific, like some circuit in the brain that not doesn't create necessarily by itself a sense of self, but that would contribute to our sense of self?

C: Well, I think there's the obvious things like our proprioception, like our understanding of our own body map and where we are in space. I don't know. I did a whole podcast with this really interesting cognitive, I think it was a cognitive neuroscientist. Oh, he might have been a psychologist about how the concept of self only develops in relation to other. And so you can't really have a sense of self if you're in a vacuum.

S: Right. So that's correct. And the different components you're one that you're getting to what we would call is embodiment, right. So it's there's a sense that you are in your body, right. There's also a sense that you are separate from the rest of the universe, right? At some point you end and the rest of the universe begins. What's interesting is that infants don't have that that that develops after birth. Like over time, They then that module clicks in and then they can see like this is my hand and everything beyond that is not me. You know it's.

B: Imagine that day like.

S: Oh shit.

B: I'm not a, I'm not a God.

S: What the hell?

C: I see it when they recognize their own parts and stuff and they start to see themselves in the mirror and all those good things.

B: They pass the mirror test.

S: So then another component is the sense that you own your body parts.

US#07: Oh, yeah.

S: And then agency. And sometimes I rent out agency is a separate thing, Evan. So then there's the the sense that you control your body parts, That's agency. And then there's the sense that you can have an influence. You can do stuff that influences the rest of the world, right? You could do something that would affect something else. And there's also the sense that other people have the same kind of sense of self that you have.

C: Yeah, that comes much later.

S: That comes later, yeah.

B: What does that have to do with your own sense of self?

S: Because you have to have a theory of mind, right? The, and the theory of mind is that you have to know what an agent is in order to feel like you're an agent. And if you're, if you are an agent, that has to mean that other people are also their own agents and they're not you. They are separate from you. The thing is, and we're, I think a lot of people get tripped up who haven't, you know, who are not neuroscientists or who haven't thought about this is that these things seem so fundamental. You might wonder was like, do we really need a circuit in the brain to make us feel that way? These things are true, but. But that's naive. That's not how our consciousness works. We don't feel that way simply because it's true, right? We have to. It's a constructed subjective experience that the brain has to actively make.

C: And it can be knocked out.

S: And it can get knocked out every mostly we know about these things when they get knocked out.

US#07: Brain injuries.

S: Injuries and drugs are the two big ones, right? And now, now we could do it with like transcranial magnetic stimulation. We could turn off this circuit or turn off that circuit. And so there are drugs, for example, that will make you have an out of body experience. What's an out of body experience? You lose your sense that you are in your.

B: Body.

S: Or, or you feel like, and I remember when we interviewed a neuroscientist who did LSD, she said that when she took it, her body expanded to the size of the universe. So what's?

E: That Jennifer Willette.

C: Yeah, she and Sean did LSD for one of her books.

S: Although I don't think that's who that quote is from. It's from Susan Blackmore. And but in any case, So what is that other than you not feeling you are separate from the universe. You feel one with the universe, right? Which feels like a spiritual experience, but it's just a breakdown of your sense that you are not one with the universe, right? Which is again, is an actively constructed sense that you have because how can you have a sense of self unless you're distinguished from not self, right? So you're in your body self versus not self. And then we talked about alien hand syndrome. What's alien hand syndrome? The circuit that makes you feel as if you control your body is not working on at some point. How does that circuit work? Well, first you decide I want, you want to make a move. You make a move and then you feel and see the move and if it matches, your brain says you control your hand. If it doesn't match or that circuit is broken, you don't feel as if you are controlling your hand. You feel like it's acting on its own agency, not your agency. Even though subconsciously it may be your agency, you don't feel that it is. So people will, with alien hand syndrome, will like be walking down the street and then their hand like empties their pockets onto the sidewalk, you know?

C: And there's the. Famous example in Oliver Sacks book where a patient kept waking up on the floor and they discovered that he was he thought that there was a cadaver leg in his bed and he would throw it out of the bed out of fear and then he would go with it because it was his own leg.

S: That's a different phenomenon. That's neglect. That's neglect. Yeah. So that's the So the sense that that a part of your body doesn't belong to you because it's not part of because you feel like a stroke in your right hemisphere, you won't know that the left side of your body belongs to you. So you're.

C: Talking about the difference between it feeling like it's possessed by somebody else or feeling like it's not possessed at all.

S: Well, so this is the difference between feeling like you own it versus feeling like you control it. Alien hand syndrome is the lack of feeling that you control it.

C: And that.

S: Neglect can result in a lack of sense that you own it. So yeah, I know what patients will say. There's another patient in the bed with me because that's not my leg. It must be another patient's leg. And the the quickie bedside test we do is we take their paralyzed hand, you know, the one that they're neglecting. We hold it in front of their face and we say, whose hand is this? And they invariably say that's your hand, even though you're showing them their own hand, because they don't feel like it's part of them and therefore it isn't, right.

C: Because we did an example of both version or of like the two how how those things are actually separate?

S: They are. They're a distinct phenomenon, although they're obviously these are all related, but they are. These are the components that are distinct. Steve, if you put on an alien costume, would that enhance your alien hand syndrome? No, it wouldn't. It's not necessary.

B: Now, in one chuckle from anybody, no.

S: It would look cool. I was laughing on the inside. Now the couple other interesting wrinkles here, you can have a sense of ownership over a part of the body you don't that doesn't exist, right? So you can have what's called a supernumerary phantom limb. And so this happened. These are now like you have a stroke that the ownership module gets disconnected from the paralyzed limb, but it's still working. It's just they're not getting any feedback from your arm. So it makes up an arm. You, you know, you have a phantom limb and it's separate from your your real physical limb and you feel like you own it. It's part of you, you control it. You just can't obviously manipulate external reality with it cuz it exists only as a figment in your mind.

B: What about your homunculus in that scenario, Steve?

S: Yeah, I mean the the homunculus is somewhat plastic, right it. Can arrange itself.

B: So it would have by definition. Would that have adapted to that phantom supernumerary limb?

S: They tend to go away over time, so they don't they tend not to persist indefinitely. They they're 1K. The the most extreme case was somebody who had four phantom limbs, 4 supernumerary phantom limbs. So he was literally Doc Ock because he had eight limbs, but there but four of them weren't real. So I know you know, and there's also phantom limb when you you like have a paralyzed arm or you have like an amputated arm rather. And you still feel like it's there because the arm is physically gone, but your ownership module still owns the the limb. It's that circuit is still there even though there's no physical arm in place. And Carrie, have you ever heard of this? I forget what the technical name of it is, but there's a very rare syndrome where people feel like they don't own parts of their actual body. And they often present to doctors saying, I want you to amputate this thing attached to me. Oh, interesting. Because it's not me. And it makes them feel very uncomfortable. And there's a huge ethical discussion going on as to what is the appropriate thing to do with. That and they're probably like their liver. No, like they're usually their arm.

US#10: It's.

C: Usually, like, let's say they don't want their Yeah, they're pinky.

S: But imagine feeling like your left arm is not you, it's attached to you.

C: And there's something neurological going on, but they're probably often misdiagnosed as having some form of psychosis, right? Yeah, right. Can't. Medicines.

US#04: Help with that?

C: Well, that's not if. That's not what's wrong. He's saying there's a circuit in their brain that's faulty.

S: Right, Yeah. And it's so rare we don't really have like a lot of research into it. So it's I don't know that we have it all fleshed out and certainly not a lot of treatment trials or anything with it. Yeah. So the all of these components can be disconnected from each other is the cool part. So now getting back to the robot thing with the paper, what they want to do, Yeah, robot is say, yeah, let's let now that we kind of know all of these components mainly from people with strokes or people on drugs or whatever, where these circuits go off for one reason or another or anoxia or whatever. You know, this is again part of often part of a near death experience, for example, the out of body experience. Let's see if we can replicate these components in a robot, make a robot feel as if it's inside its robot body. And so they could replicate the circuits. For example, for the the agency module, you could say like the robot knows what it wants to do, meaning that at least there's the circuit that says you're going to raise your right arm. So that information is in the AI controlling the robot. It then will raise the arm and then you have sensors that feedback to say, how is the limb moving and does it match what you intended to do? And if it does match, you have to give some kind of positive feedback back to the algorithm. And so that would essentially mimic that loop that exists in a human brain that makes you feel as if you own your body part, right?

B: Aren't they kind of doing that now though?

S: To some extent, but they want to explicitly try to replicate these components of a sense of self that humans have in a robot and and then see how that influences the robot's behavior. Maybe it will improve the robot's ability to control its movements, for example. Maybe we'll have some, you know, consequences. Probably we evolved these things for a reason.

US#10: Maybe, maybe give it a psychosis, Some robotic psychosis, yeah.

S: Now the question is this now if you want to keep going forward with this, if you Add all these things together, what does that add up to, right? Does it add up to an actual sense of self that the robot has now? I don't think that if we had all these circuits disconnected from each other and not connected to anything that was also trying to replicate consciousness. Yeah, So and what is consciousness again, that we could try to replicate that in an AI slash robot that is, you know, essentially, if I had to strip it down, what we know now is wakeful consciousness. If we're talking to clinically now, what is wakeful consciousness? It is a constant communication that the brain is having with itself, right? There's just this constant loop of neurological activity, and it's being activated by the brain stem. The brain stem's constantly giving your cortex a kick in the ass. And then every time something happens, it leads to something else, which leads to something else, which leads to something else. And if that just keeps happening, that that chain of neurological events is your stream of consciousness, right? And it's taking in sensory information, it's taking in information from your own body, it's taking in information from other parts of your brain that are communicating with each other. And it produces the stream of consciousness, right? That's sort of self propelling.

C: And it's not just excitatory, it's like there's a lot of inhibitory action going on.

S: Well, yeah. Then at the high levels when yeah, there's a lot of stuffs happening, you have to sort of inhibit the stuff that you to control your behavior. So it's not just chaos.

C: Or or a message of seizure.

S: You have, well, that's those seizures are inhibited at a really basic level. Like if you every time you like 1 neural circuit, bunch of clump of neurons sends a signal to another clump of neurons, they inhibit all of the adjacent neurons. So that's to keep it from spreading outside of the circuit. Yet to prevent seizures and prevent what we call ephaptic transmission. Ever hear that term Cara effective ephaptic EPH fat Dick? Yeah. That's basically meaning not through not through a circuit, but just spreading it to adjacent neurons. Yeah, yeah. Seizures are when the bunch of cells are neurons are firing, not along pathways, but just just because they're all next to each other and they're just all firing.

C: Is bad, right? They're not good for the brain for that to happen.

S: Yeah. And here's the final question I want to leave you guys with. Is there a difference between a general sentient AI that exists only virtually and one that's in a robot? And is it, what would an AI that exists only virtually be like? Now, the Gray zone in between these two states is, is what I call the Max Headroom thing, which is that you could have a virtual body. An AI that's not in a robot, that's just on a computer could have a virtual body and could have all of these sense of self modules running with the virtual body. But what if you didn't do that? What if you had none of these sense of self circuits running? You just had the AI? What would it experience and would that be sustainable? Would that be functional or do we really need to embody it in order for it to be a functioning self aware AI?

C: Well, and I guess to make it even more complicated, if this, if we're talking now about software, not hardware, software can control external hardware. So even if it's not a robot body, if that AI has access to the grid or it has access to a server, could it then? Embody other machine.

S: Yeah, maybe your house is its body. Yeah, or a spaceship is its body. That's Futurama, right? There. Yeah.

E: Yeah, that spaceship.

S: Is the is the is the machine is. But it's embodied in something. Yeah, It's embodied in.

C: It's embodied in something, but in a much more, I think, useful way like that. To me, you could do a lot more with that than like a robot in a humanoid body.

E: Well, was Hal 9000 that?

S: I think so because it had total control over the ship, yeah.

E: Yeah, except it was. It was. It was indistinguished. It seemed to be indistinguishable.

S: Anyway, it's fascinating, but the thing that's interesting is that we will be able to investigate all of these questions once we do it right. We can speculate now, but once we do it, we'll get a much better sense of how the sense of self and embodiment effects artificial intelligence, whether it's virtual or just in the void, or if it's embodied in a robot. We will see. All right, Kara, tell us about the new energy Secretary.

News Item #2 - America Needs a New Space Station (21:13)

S: Or at least oh energy they propose new.

C: Energy, You sound so happy when you say that. I feel like this is going to be a new series because as I was prepping this, I found out that Doctor Oz has been selected for Medicare and Medicaid.

S: Oh.

C: What? Uh huh. But well, I did not. I did not do a deep dive for that one, so I'll just set.

S: That on board of trustees dealt with that.

C: I guess there's somebody at the house. Good.

S: There's always somebody at the top, there's always somebody appointed who's in charge.

News Item #3 - New Energy Secretary (21:46)

C: So instead, we're not going to talk about Doctor Oz, at least not this week. We will be talking about Chris Wright. His full name is Christopher Allen Wright. He's the CEO of Liberty Energy. It's the second largest fracking company in the US and he is the presumptive nominee for United States Secretary of Energy under this next Trump presidency. He's obviously got a lot of experience in the energy sector. He is a board member of a nuclear energy company, also a board member of a royalty payment company for mineral rights and mining rights. But there's a little bit of a wrinkle in that he does not believe in climate change.

S: Didn't he also work for a solar company too I heard?

C: He's worked for, yeah, he's been on boards and worked for, like, companies across the board. And that's what Trump really pushed when he did his post on, I think, Truth Social, where he said, I'm thrilled to announce that Chris Wright will be joining my administration as both the United States Secretary of Energy and member of the newly formed Council of Energy Council of National Energy. He's been a leading technologist and entrepreneur in energy. He's worked in nuclear, solar, geothermal, and oil and gas. He is an oil and gas executive. He is a firm believer. Well, I actually, it's hard to know what somebody actually believes in their mind, but he's a firm proponent. Proponent, not proponent. That's not the right word either. He claims that there are no negative impacts from fossil fuel energy on the climate.

E: Wow, that's a remarkable statement. Thank.

C: You he claims in in a video that he posted on his LinkedIn and this is what he labeled the video. 5 commonly used words around energy and climate that are both deceptive and destructive. Climate crisis, energy transition, carbon pollution, clean energy and dirty energy. Hashtag energy sobriety. So he claims that quote, we have see no increase in the frequency or intensity of hurricanes, tornadoes, droughts or floods. Despite endless fear mongering, he says that there is no climate crisis. And he goes on in this 12 1/2 minute video that he posted to his LinkedIn about a year ago to basically argue that carbon dioxide cannot be a pollutant and carbon dioxide cannot have all of these downstream negative consequences because it's natural, because it's a natural phenomenon that occurs via photosynthesis.

S: Right, which is a nonsensical argument.

C: Yeah. And and respiration. Yeah. So it's pretty scary. He says that there is no climate crisis and the negative impacts from climate change because of course, he's he can't fully argue that climate change doesn't exist. Like there are very few people who do that now. Instead, they've sort of moved the goal posts. And he says that the negative impacts from climate change are less than the benefits of using fossil fuels. So he is a firm believer that we need to continue to drill, we need to continue to burn, that these approaches to energy are going to allow us energy independence. And according to Donald Trump's Truth Social post Energy US Energy Dominance, he put it in all caps, which is a.

E: Dominant.

C: Yeah, which is a large goal of the administration. You know, to be fair, Chris Wright has worked in alternative energy. He works in energy, which means he's worked in renewables and non renewables. It does appear, I cannot speak for him, but it does appear that the motivation here is money. It's not clean energy. It's. Just. Energy. Energy, right? And however it's going to be the most lucrative and the easiest to produce that energy is going to be, is going to be the path. And that's what's so scary because we know the cost now of natural gas. We know the cost of crude oil. We know the cost of fracking. And these just aren't arguments that he's making. And he's going to have inordinate power if he's confirmed by the Senate to lead the Department of Energy.

S: He will 100% be confirmed. There's no way that they're not going to confirm him. Don't.

C: Say.

S: That but, but let me tell you this, Kara. I'm going to make an argument for why this is not as bad as it seems.

C: I know where you're. Good luck.

S: And I'm not just comparing him to the other secretary, you know, whatever other people.

C: I know where you're going with this. Yeah, it's an argument, but. It's an argument. Here's my here's my argument. But let me put it out.

S: Obviously it's bad to have somebody in that position who just straight up denies the science, right? That's not a good thing. And this will absolutely be a set back. And it'd be worse obviously, than if we had somebody who was fully on board with transitioning away from fossil fuels, which he is. But at this point in time, there's essentially we have two strategies, energies for transitioning to renewable energy, green, you know, green energy, low carbon energy and away from fossil fuels. And these are not mutually exclusive, but there's some combination of reducing supply and reducing demand for fossil fuels, right? So far, we are not taking the reduce the supply approach under the Biden administration. the United States is producing more fossil fuels than any other country at any time ever in human history, including during Trump's administration. So.

B: We're right. So we're right on plan then?

C: Is that a function of just there being more people in more need?

S: It's, it's a function of, you know what it is, It's a function of Russia invading Ukraine. So we, of course, we, we, we jacked up our, our oil and gas production to essentially displace. Yeah, Russia's sales to Europe and we're trying to replace. I see Russia's sales to Europe of natural gas and oil, and that put us over the top to like more production than we've ever done before. So the idea that it's always been like silly for Trump to say we're going to bring oil back and we're going to be dominant. We're already there, dude. He's already we're producing more oil than we ever have before or anyone has ever had. But Biden didn't do that Willy nilly. But he did it deliberately.

US#02: And deliberate with a lot of. Necessity.

S: But the point is we're already there. We're already producing all this oil and and we're doing that to keep prices down. Now, keeping prices down is actually a good thing because it lowers the value of pulling that oil out of the ground. It's also good because it takes money away from, you know, authoritarians who are basically funded by the sale of fossil fuels, right? So ideally, ideally, we will reduce demand first. How do we reduce demand first? Because then that we can reduces the cost. We could reduce the value of fossil fuel and the incentive to go after it. You do that by transitioning to green energy, right? So.

C: Fewer cars that run on gas.

S: Fewer cars that run on gas and then and fewer coal and gas powered, you know, energy production. So for right now, it's more important that we build non fossil fuel resources then that we restrict fossil fuel. Eventually we have to dial down the fossil fuel. But for now, if we if we're just investing in expanding our non fossil fuel infrastructure, that's fine. And so my hope is, again, this is just a hope, But there has been a lot of good news recently on the nuclear power front, which I just summarized in my blog post. The Biden administration and also a consortium of countries around the world have pledged to triple nuclear power capacity by 2050.

E: Good. Wow.

S: Triple. That's huge. That is huge.

E: It's a big piece of the puzzle. Yeah.

S: Well, you know, now if if by 2050, we have a 50% increase in our energy demand, that means doubling the nuclear percentage of production. So right now we're about 1920%. So we're talking about going to about 40% nuclear worldwide and in the US And that's probably where we should be. So I don't think, I don't know of any reason why this guy or why the Trump administration is going to undo.

C: No, I think he's, yeah, he's pro nuclear.

S: They're pro nuclear.

C: Has broad bipartisan.

S: So yeah, this has this has broad bipartisan support. So as long as this keeps happening, that could keep us on pace to where we need to get by 2050, right? It may not be good for the solar or the wind industry. I get, I get that. That's where I'm more concerned. But here's the thing. Some people have argued that because wind and solar are currently the cheapest form of new energy to add to the grid, that it doesn't need a lot of subsidies at this point in time. Companies are doing it because it's the cheapest. And so hopefully, you know, that will have inertia unless they actively try to inhibit it, which they may, which Trump may just decide to mess with the wind industry just just to do it because it doesn't like.

US#10: Yeah, kills birds, you know, and stuff.

S: I don't think this guy would do that because, as you say, he's kind of neutral.

C: Yeah, he's new. I think he's neutral about the source, like from a moralistic perspective, but that's actually a bad thing. Yeah, I agree.

S: But I mean, but for now doing the all of the above so that at least the renewables and the nuclear and the geothermal and the hydroelectric can still grow and expand. We, it may not be that much of A disaster is what I'm saying. It may not be bad.

C: I don't know. I think that he wants to fully deregulate.

S: Well, they're going to deregulate gas. They're going to derail, but they're also probably going to deregulate nuclear and deregulate solar and wind too.

C: Yeah, but that's not going to. So all of those things, yes, are going to make for more competition for alternative sources in the marketplace. But what they don't do is they do not mitigate the pollution.

S: Of course.

C: Absolutely. That is what is actually causing the climate crisis.

S: I agree, but I, I think though my point is it's really complicated to try to figure out over the next four years what the net effect of this is going to be. And if they continue to expand the non fossil fuel infrastructure, it may not be that dramatic a difference. And, and if we are in a much better place in terms of more nuclear, more wind, more solar in four years, that might be a better time to start like really thinking of ways to dial back fossil fuels. It wasn't going to happen in the short term anyway. It wasn't happening under Biden. It's definitely not going to happen under Trump, so.

C: Well, how quickly does I mean, don't these nuclear plants take quite a while?

S: But part of what what Biden is already doing, he also put together, I mean, there's so many things going on. So he announced $900 million to support startup Gen. 3 nuclear reactors. He was, you know, the part of 25 signatories pledging tripling nuclear capacity by 2050. And also there's the ADVANCE Act, which is which was just passed with bipartisan support, which streamlines regulations and also provides sweeping support for the nuclear industry. So they're trying to figure out ways specific there's a commission's like figure out ways to make us be able to build nuclear reactors cheaper and faster and to streamline all the regulation that's already happening. Again, I don't see that being undone. OK.

C: And so, you know, and this is my Spidey senses picking up, but like, while I agree that the regulatory burden is high right now and we've talked about this on the show before and there does need to be some streamlining, I think that it is still very important.

S: Absolutely, you can go too far.

C: Safely. Absolutely. Very worried that too much streamlining could lead to disaster.

S: And we should be worried about that.

C: Because then that will set us back like the last disaster set us back.

S: So the devil's always going to be in the details. And there is like a nuclear industry, too. You know, they don't necessarily want to build unsafe reactors. That's why I'm saying the net effect. It's hard to really calculate the net effect of all of this. So yes, they probably because Trump deregulates with the machete, not with a scalpel, right? We've seen that before. That's clearly what they're going to do now. And so, yeah, So that that is a legitimate concern. But you know, the investors and the industry probably will welcome the deregulation, but hopefully this there's already international standards in place for the nuclear industry and hopefully they won't be eroded too much.

C: I, you know, it's like that. That is really where it bumps up and that's the part where I don't have the same kind of hope that you have. I wish.

S: Trying to be positive over here, care. But the other thing is, the other thing is in four years they could all snap back, you know what I mean? Or at least some of them are. If there's if they went too far, we could then, you know, we have time to claw that back. It's not like whatever happens now is forever. It's really just it's we're losing 4.

C: Years with regards to regulation is forever if a plant is built under those regulations.

S: Probably not in four years. That's a little fast.

C: Yeah, and that's the hope, right? Because ultimately, while I agree with you that people who work in this sector do not want unsafe plants, there are many people who care more about profits than they do about.

S: Absolutely. So this is this is a complicated issue. This is one that I am definitely going to be keeping my eye on. I think it's not all doom and gloom. This guy, you know, because of the nuclear thing, because that's all of getting gaining momentum. I'm hoping that over the next four years, that's where they'll focus their efforts.

C: I hope so too. I mean, I do. I agree with you that it's not all doom and gloom, but I do think that the goal posts have been moved so far at this point that the reason it's not all doom and gloom is because exactly like you're saying, maybe we'll have nuclear, but like the deregulation of fossil fuels is scaring the living shit out of me right now. I got to be honest.

S: Yeah, I agree. I agree. I'm not sure how much more damage they can do. We're already producing more than we've ever produced. You know it means like only so much they can. Produce.

C: We're already producing more than we've ever produced with, with strong regulations in place. So imagine when the lid comes off, yeah.

S: So we'll, we'll see. We'll we'll we'll keep everyone updated. Well, you know, we'll see where it is in the spectrum of worst case versus best case scenario that, I mean, of all of Trump's appointments, this is not the one that keeps me up at night. Yeah, Right. Yes. This is not ideal. This is basically what you would. This is exactly what I would have expected. I guess it could have been worse, but.

C: I didn't expect somebody who fully denies.

S: Oh yeah, I did. Oh, 100% because.

C: Trump I just thought we were past this, no.

S: Because Trump denies that Trump is 100% denying climate change, that he's still saying it's a hoax. Clearly, though, there's two people that keep me up at night in terms of the appointments right now. One is Tulsi Gabbard, you know, because she's don't need to get into that as a head of intelligence that that's like actually dangerous for the country. And the other ones are RFK Junior because he could destroy federal health care.

C: Well, now I'm going to add Doctor Oz to that.

S: Doctor Oz is not nearly as bad as RFK Junior.

C: You know I don't, I am.

S: I am not a fan of Doctor Oz. I don't know how much mischief he could make at Medicare, Medicaid. Whereas RFK is like actively wants to cause mischief, wants to oppose vaccines. He is. He is the Wrecking Ball and and you know, Gabbard just doesn't know reality from fantasy, and that's dangerous. It's the head of intelligence that's very, very dangerous.

C: But I guess, I guess my thing is you can say don't get vaccinated all you want. I don't know if he can actually block a vaccine from being available to the public. But you can say don't get vaccinated all you want. But if you defund or deeply change the structure of Medicaid and Medicare, people will die. Lots and lots of people will die.

S: Well, what there's lots of ways that RFK Junior can undermine our vaccine infrastructure in this country. This is a separate talk. Maybe we'll give this. You know, probably what we should do is bring David Gorskin because he's been really writing a lot about RFK Junior and like we'll have.

C: A because I just did like a little primer last or two weeks ago.

S: We'll do a good deep dive on like what could he actually do? Because that is a very interesting question. And it's, that's the, but that's, I think the most, you know, those two are the most scary appointees.

US#10: The big question will he have a larger US body count than he had during COVID?

S: Yeah, possibly it is. It is possible, yeah.

US#10: The next pandemic scares me.

News Item #4 - Finding Planet Nine (38:07)

S: All right, Bob, tell us about Finding Planets 9/9.

B: My turn Is it OK? Planet X or is it Planet 9 was in the news recently. Scientists have published a proposal to use an array of 200 small telescopes that they say can prove if a massive planet indeed exists in the farthest reaches of our solar system in the region where the so-called Trans Neptunian objects dwell. Daniel Gomez and Gary Bernstein from the Department of Physics and Astronomy, University of Pennsylvania, wrote on the online archive their paper. It is named An Automated Occultation Network for Gravitational Mapping of the Trans Neptunian Solar System. OK, so to better appreciate this, let's explore the few bits of terminology typically found in these discussions. First off, is it Planet X or is it Planet Nine? Planet X is more general. That's a general term that's been used for many, many years. Many decades. 100 years. Used it used for the right, used for the potential planet beyond Neptune. That's Planet X Planet 9 on the other is often used interchangeably with Planet X, of course, but it seems Planet 9 is used most often when referring to the idea that the 9th planet of our solar system could potentially be found by observing its impact on the orbits of trans and Neptunian objects. So that's where you're going to mostly find the term planet 9 and that, and that makes sense. And that's fine. All right, so this brings us 2 trans Neptunian objects. And it's not hard to predict what that term refers to. It refers to objects beyond the orbit of Neptune. But those objects have two primary categories. The most distant trans Neptunian objects exist in a region that I wasn't aware of called the scattered disk. Now, these are really, really far away, up to 100 A U's astronomical units. Each AU is the distance from the Earth to the Sun, 93,000,000 miles. Sorry I don't have the kilometers memorized. The scattered disk contains small icy bodies, and they're in very eccentric orbit orbits. Really high off of the plane. The other major area where trans Neptunian objects exist is that this is the place you really want to be if you ever hang out beyond Neptune, it's going to be the Kuiper belt. That's where you got to go. Yes, this right. Sure, sure. Evan, you know the belt, the Kuiper belt starts at Neptune's orbit right beyond its orbit at 30 AUS and stretches out to 50 AUS or 55 AUS, I've heard as well. So very it's, it's huge. It's about 20 times as wide as the as the asteroid belt that we know between Mars. We know very well between Mars and Jupiter. 20 times as wide and and potentially 200 times as massive. So the Kuiper belt is gargantuan. Kuiper belt objects, though they're not technically at asteroids. I wasn't quite aware of this. As far as I can tell it's because the word asteroid is mainly reserved for for a location. Not really what you're made of, but really where, where you exist. So the large rocky objects between or near the orbits of Mars and Jupiter, those are asteroids. So if you're, if you're there, if you come from there, you're an asteroid. But Kuiper Belt objects are so they are not, are not referred to as asteroids. They're just basically Kuiper belt objects and they're actually, they're different also as well. They're made-up of frozen volatiles, various ices composed of methane or ammonia and water too as well. Trans Neptunian objects are anything beyond Neptune. And within that area you've there's a huge Kuiper belt area and there's also the more distant scattered disk object area. So now these objects are thought to be remnants from the solar system's solar system's formation. So they are ancient. And since they're so far away, they're, they're basically unchanged. So they would be amazing repositories of information of the the early solar system because they have not been melted. They have not been changed really in any way out there. Now they're, they're distant orbits, though this was interesting that they're in such a, in such distant orbits beyond Neptune. We think because Jupiter and Saturn got basically they got together and they imposed their gravitational will on these remnants and they force them from out from in the in the, you know, in the inner solar system closer and maybe to Jupiter, Saturn area perhaps. But they've they've basically forced them out into the orbits that they are in now beyond Neptune. The question then becomes can there be a true planet sized object out there a planet 9 or even multiple Subs such objects hiding in the Kuiper belt. Many people think so. Now, the evidence most often cited needed for this. You know, it's subtle. It's nothing really that's overt, but it is there and a lot of people are looking into it very closely. It's the subtle clustering of orbits of some of these Kuiper belt objects to the scientists, to the astronomers, the orbits just don't seem to be as randomly distributed as you would expect them to be. And 11 next explanation, they contend could be a very distant unseen planet. Some say it could have as much as as many as five earth masses, a super earth out there waiting to be found. That's five. I mean, that's would be I mean, I don't believe that, but I think there could be something out there and I hope, I hope there is. That would be amazing. Now, of course, they have they have searched and searched for Planet 9 had nothing has has been found. And this is where the paper comes in this latest paper. So the the authors contend that using 200 small telescopes, like something like 20-30 centimeters, I mean pretty small, separated by 5 kilometers and lined up in an array that stretches end to end 1000 kilometers wide, that such an array of 200 telescopes could tell us these critical details about Planet 9, if it even exists. So the key technique that they describe in detail in their paper is called occultation. Occultation appears more capable fascinating than I than I would have thought. So here's here's how this works. So imagine you're observing an asteroid or a trans Neptunian object. So you're you're observing it and you you precisely time to the nanosecond or so when it blocks a distant star, right it it's moving in its orbit and it moves in front of a distant star. That's that's that's in our Galaxy somewhere say whatever 10:20, 30-40 light years away, whatever it is. So you time you time to the nanosecond when it's blocked and then also to the nanosecond that when the star reappears. And we could do that very, very precisely. Now if you do that not only with one telescope, but 200 of these telescopes, each one having their own slightly different angle, right? Each one has its own specific angle onto that occultation event and, and so they'll have their their own view, their own timings. So if you take all these 200 timings and put them together, you combine all that data. What you get is you get an extremely precise understanding of the asteroids orbit, where it is and when very, very precisely. It gets even better than that. The more of these occultations that you observe, the more accurate your timings and position your positional data become more so than any other method that that's used alone. So then ultimately then the idea here is that once you have these hyper accurate orbits mapped out, we can then detect very subtle gravitational anomalies, right? If we know down to down to the 3rd, 4th, 5th, 6th decimal point when this star should be blocked by a by an asteroid or trans Neptunian out there. If we know where that and it doesn't happen, then you've then there's some you have, you have an anomaly, you have a gravitational orbital anomaly. And that's something that can be investigated. So we may discover, for example, through these anomalies that various asteroids are moving or trans Neptunian objects are moving in a way that points to an unknown large gravitational source in a very specific orbital location. In other words, planet 9. So that that's the hope that this hyper accurate information can actually say there's got to be something over here. Multiple asteroids, multiple trans Neptunian objects are telling us that there's some mass in, in this specific area. It seems like it's got say 2 Earth masses and it's in this orbit, this distance from the sun. It could potentially be that specific. So all we would then have to do is just zoom in on that specific area and we'd have a relatively, you know, very small parcel of space to investigate and we could potentially find it best case scenario.

S: That's how Obi Wan Kenobi discovered Carino.

B: Yeah, exactly.

E: Oh, that's right, because something was missing.

S: There's a gravitational source that was missing.

E: There's no right. But there was no body assigned to it. It was a dead spot in space, but there had to have been something there.

B: Yeah. All right, so.

E: Even if Bob, we're talking science here, yes.

C: Science.

B: So even if even if planet nine though is a bust, a server like this could be incredibly informative about our outer solar system right? There's still so much to learn even without planet 9. They believe that the researchers believe that a 10 year survey could find 1800 new Trans Neptunian objects and revealed details about their properties, their orbital dynamic dynamics, their surfaces, so many different things. It could. It could refine also our understanding of the boundary of our solar system and how it evolved.

S: And Bob, a lot of the objects that it discovers could be dwarf planets, even if they're not full planets.

B: Oh yeah. Well, that yeah, Well, I didn't say, but yeah, if it, if it's not clear, Kuiper belt dwarf planets basically are all in the Kuiper belt. But then one exception I think is cirrus in the the main asteroid belt. Yeah. That's pretty much. All the other ones are so yeah, that's what we find. Dwarf planets favorite long shot, though, is the outside chance that it could reveal information about primordial black holes. If you know, black holes that existed from the early, early small ones that existed, you know, early in the in when the universe soon after The Big Bang. So if a primordial back hole was to pass in front of a star, we could detect that by the micro lensing event that would happen to the stars light, right? It would just bend the light and we could say, oh crap, there's a there's a super dense mass right there. It could be a primordial black hole, long shot, I know, but that would be cool. But it would be really, truly amazing to finding a true planet in the Kuiper Belt. That how epic would that be? That would be the astronomical discovery of the millennia, really. I mean, another planet potentially, you know, multiple Earth masses, you know, the number would go, you know, back from 8 back up to 9. I think it would make Pluto feel a lot better, you know, since one of its Kuiper belt buddies was recognized as a true planet, even if even if Pluto could never reattain that. And at this, this project is estimated to cost only 15,000,000 US dates. That really that is that's smaller than I would have anticipated. That's that really is I made sure. I mean, I like to have that. Rounding counter. Yeah, that's, yeah, it really is. It's it's so tiny. It sounds like an amazing deal. It seems like a no brainer deal to me. Of course, once this is truly vetted by other, you know, other, you know, other scientists and astronomers and make sure their numbers look good. I mean, this sounds like a great idea. I hope they do it.

S: All right. Thanks, Bob.

News Item #5 - Stress and Paranormal Belief (49:26)

S: Sure, Evan, Tell us about stress and paranormal belief.

E: It stresses me out. Does it though, Mel? It depends. Did you know there's something called the Revised Paranormal Belief Scale? The RPBS. This is a tool I had not heard of before. I have no and shame on me. I probably should have read about this before at some point. It is a 26 item survey that measures a persons belief in paranormal phenomena. It's a widely used tool in parapsychological research and was developed by Jerome Tabasik and published in the International Journal of Transpersonal Studies in 2004. So this has been around a while and I believe there are even references to this prior to that. So yeah, for for many decades this tool has been there. Basically, you have the participants respond on a Likert scale, one strongly disagree to seven strongly agree, and they ask you questions about, well, how do you feel about witchcraft? How do you feel about superstition or spiritualism or extraordinary life forms? And down the list it goes so much. Much prior research has relied on this using this tool, and the results have suggested that paranormal belief in general is not linked to poorer psychological well-being. However, certain facets of paranormal belief, such as superstition, could be linked with stress vulnerability.

C: Saying that's the claim of these authors.

E: Yeah. Well, no, this is this is, again, this is the prior research. I haven't even gotten to the current study and I'm just I'm.

S: Just that's what I've read as well. It's like superstition is the one that gets triggered by feeling lack of control, feeling under stress, et cetera. Depression.

E: Until along came a revised version of this tool called the Rash Purified Revised Paranormal Belief Scale, RPPBS for short. Yes, another tool to measure people's beliefs in paranormal phenomena, but it's considered a better statistical method that they use that with improved validity and reliability compared to the original 1, enhanced ability to compare results across different populations, and a more robust measurement of paranormal belief as a unidimensional construct. I also wanted to look up, I said, you know, because I had, I'm unfamiliar with these tools. I, I, I did a little more research into it to figure out like, is this legitimate? Is this considered scientific? Or is this kind of just, you know, something that experimental researchers are kind of throwing together on their own? But no, they say it is. They say this is this is legitimate.

S: It's part of psychological research. It could also be used for a parapsychological bogus research. But it is part of just psychological research.

E: It's considered psychology. Accepted as a reliable tool.

S: Yeah, like psychologists studying conspiracy theories doesn't mean that they believe in the conspiracy theories. They're studying them. It's the same thing. They're studying paranormal belief.

E: And that means, yeah. So that gets us now to the news item this week, which we can now better understand. There was a new study that was published in Plus One PLOS One titled Re Evaluation of the Relationship between Paranormal Belief and Perceived stress using Statistical Modeling. The authors are Kenneth Drinkwater, Andrew Denovian and Neil Dagnall. Drink Water and his colleagues had 3084 people complete the rash model survey, which is the more refined survey alongside a questionnaire evaluating different facets of perceived stress called the perceived stress scale. Of course, to help deepen their understanding of potential links between paranormal belief and stress. Here are some quotes of what the researchers found finding support that the notion that traditional paranormal belief is associated with external control, specifically the notion that unknown supernatural forces and powers influence existence. Feelings of distress and reduced ability to cope with stress were associated with these traditional paranormal beliefs. So superstition is one of those considered traditional paranormal beliefs, right? Sort of belief in witchcraft? Ghosts, these sorts of things, external forces that you don't have control over. And on the other side of this coin are the new age philosophy, sort of paranormal beliefs dealing with sigh, spiritualism, precognition. They could not find it to be statistically linked to any tendencies regarding distress or coping for these new age philosophy and these this is what was expected in their findings in line with the idea that traditional paranormal belief reflects anxiety. And again, it's about that lack of control over those external forces. They do admit the study was exploratory and does not support any cause effect relationship. Why is it important? So why, why did the authors, you know, why are they bothering with this? And I thought they summed it up nicely in the abstract of the paper, which I will read to you now. This part of it Research into paranormal belief is important because supernatural credence persists within contemporary society and potentially influences everyday attitudes and behavior. For instance, investigators report that paranormal belief is associated with lower levels of trust in science and higher anti science attitudes. These are notions not based upon reasoned or reliable evidence, which conflict with prevailing conceptions of the world. Specific examples allied to belief in the paranormal are endorsement of alternative medicine, anti vaccination and conspiracies. Evidence suggests that paranormal belief is a form of non clinical delusion arising from an over reliance on emotional content and the failure to rigorously evaluate the the validity of information. And what is it we talked about on this show for the past 20 years and the 10 years prior to that, that we've been a skeptical organization and all the shoulders of the giants that we've stood upon that came even before that. It all boils down to this.

S: Yeah, right. But there's, I do think there's multiple moving parts here, you know, having followed this literature somewhat over the years, you know, as a skeptic, there's also other studies which show that there's a correlation with intuitive thinking style versus an analytical thinking style, which makes perfect sense. And there's also this question of which I don't see as much in the literature, at the fantasy prone personality type, which I think is just an extreme version of this, you know, tendency to believe in the paranormal or maybe intuitive thinking. But also this is very context dependent. You know what I mean? It's like, what culture did you grow up in and what is what, how culturally acceptable are the beliefs that you're talking about? I And that may be where the real divide here is between traditional paranormal beliefs and New Age paranormal beliefs in that the New Age 1 seems to be more of a like you get into that subculture and and that worldview. And I think it tends to attract people who have again, the sort of a fantasy prone or intuitive thinking style. Whereas like the more traditional ones may come about because of stress or whatever, it makes sense that they would not be. It's not all one phenomenon. It's not monolithic. I think there's right. And I just, I also think that conspiracy beliefs there were its own phenomenon, you know, like the tendency to believe in conspiracies. While there's a ton of overlap, that is an entity unto itself.

E: Yeah, it's interesting. The I would imagine there would be. And of course more research is needed. Yeah, correlations of stress and conspiracy theory there, Conspiracy thinking. Yeah, maybe.

S: But again, the conspiracy thinking comes in two flavors. Opportunistic conspiracy thinking and dedicated conspiracy thinking. People who are conspiracy theorists, they believe in all conspiracies and people who only believe in ones that support their worldview opportunistically.

E: Yeah. So those comforting ones won't cause the stress, right? Probably would not. Probably not cause stress for them.

S: All right, it's an interesting area. You know, again, I tend to follow this because it's pretty much in our sweet spot of what we do, and it's fascinating. You have to look at this as a psychological research project. Well everyone, we're going to take a quick break from our show to talk about our sponsor this week, Aura Frames.

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J: I got my father-in-law, I got my mother-in-law. I got a couple of other relatives that we bought these frames for. They're super easy to use and they report back to me. I have one too, but I'm just telling you what the people in my life thought. They absolutely love it. It's a fantastic present.

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S: Right, guys, let's get back to the show.

Who's That Noisy? + Announcements (59:04)

S: All right, Jay, it's who's that? Noisy time. All right guys, last week I played this noisy.

J: In its entirety. So guys have any guesses?

E: I have a guess that was Jay's first attempt at playing the didgeridoo.

J: It sounds like a super old recording. That's a That's a nice guess. Anybody else it?

Voice-over: Just sounded like an insect to me.

J: It has an insect like quality, absolutely.

E: Thought I heard. Help me in there, yeah.

J: There was a listener, many that wrote in one of them named Benjamin Devolt Ben here, the Frenchie from Japan. I think this is a drone quadcopter equipped with ultra low noise propellers, probably the asymmetrical type with a counterweight on the side opposed to the blade that is. Oh, and he says my name is pronounced Davu, so Benjamin Davu. So that's an interesting and very specific guess. And you know, quad quadcopters do make that kind of, you know that what would you call it? A buzzing sound or like it almost like a? Droning noise. Yeah. That is not correct though, and we will continue on. So a listener named Shane Hillier wrote in and said it's a murder Hornet. So yeah, Kara, somebody else agreed with you about the insect like. Noise.

US#06: Murder Hornets.

J: Listener named Stephen Walker wrote in. He said, hi, our guest is a bee honey bee doing its waggle dance to tell its buddies which direction to find the good stuff. So yeah, there's a there was a murder Hornet and a bee. So that definitely people are hearing that kind of sound and I always find it fascinating that that bees, you know, they talk with pheromones, which is basically, you know, smells. It's pretty freaking cool that they can communicate with that. So now I'm going to click right over to the winner. We had multiple winners, but I'll play. I'll read one of them here. So Frederick Niant was the first person to guess right. And he guessed this as the first known recording of a human voice. I think at some point I've played this previously I had a different recording and now this is like an update because something pretty remarkable happened where they they were able. To mark them all. So let me another let me give you another listener's answer. This is Joshua Banta's answer. Very, very nice description here. He said it's an actual recording from 1860 of Eduard Lyon, Scott de Martinville singing a Clair de Lune. This is a something, It's played on something called a phonautogram. But let me give you some more specifics here. So James, he said James Buchanan was the US president at the time, pre Civil War, pre Abraham Lincoln. And he said the Martinville invented a device called the phonautograph that collects sound by using a horn connected to a diaphragm, which caused a rigid bristle to vibrate and inscribe a visual representation on a hand cranked cylinder. But this was never intended for playback, by the way. It only produced visual images to show you what sound, you know, looked like. It's just squiggles on paper. But there was absolutely no capacity for there to be any playback. Now we click forward to 2008, and the recording was transformed into a playable digital audio file by scientists at the Lawrence Berkeley National Laboratory in Berkeley, CA. And it worked really well. So it was inferred to be played back at a 10 second speed, which caused the voice to sound like a woman or even a child. But later the scientists realized that this was the wrong speed. And when they played it back at slower speeds, they found the one that they thought sounded the most correct. And it is of a man and they think it it it is Martinville himself singing Clair de Lune. So I'll play it again. Now keep in mind, you know, this is the lowest fidelity recording you'll probably ever hear. So that's pretty cool, guys. Weird. Unexpected past. So thank you for sending that in. I have a new noisy for you guys this week, and this was sent in by a listener named John Karabaic. Thank you for sending in the phonetic pronunciation of your name, and I'm going to play the sound now. If you guys think you know what this week's noisy is or you heard something cool, e-mail us at WTN at theskepticsguide.org. Steve, it's not too late. It's it's actually it is. It can be too late, but it isn't. Now, if you're hearing this and it's, and it's basically like what the, the 20th or the 21st or, or soon thereafter in November, you could buy tickets to. We have two shows going on in Washington, DC. We have a private show that is a live recording of the SGU limited audience size, and we record the show and then for an hour, all of us, including George Hobb, will do something fun and unique that has never been done before in a live audience. So if you want to have some fun, you can join us at our private show or you can also go to the Extravaganza. This is the Skeptical Extravaganza stage show that we have. It's going to be in DC as well, and it's going to be that night, right? The private show will be starting at 11:30 AM and the Extravaganza starts at 8:00 PM. Please get there around 7:00. You can go to www.theskepticsguide.org. We have buttons on there that link to tickets, which means you can buy them and you can come see us and we'd love to have you.

S: And Jay, we should tell people all of the social media stuff that we are on as well. So first of all, we do a live stream most Wednesdays starting at 1:00 PM and most Fridays starting at 5:00 PM Eastern. We have a Facebook page, two blogs are affiliated with us neurological and science based medicine and we are we we are still on X but we are also now on blue sky and we are on Instagram and we post TikTok videos, two or three TikTok videos every week. My my most popular TikTok videos. What do you guys think? What's it up to?

E: 4.5 million.

S: 5.7 million.

E: Oh no.

B: 5.7. Climbing. Damn man, how is it really slowing down? No, it's still ticket a lot. Still going on?

J: Still ticket. The interesting thing is like there is just no rhyme or reason.

B: Right.

J: It just, it just went viral, right? So sure, we could have slipped into Tik Tok's algorithm or whatever, but like, we make a ton of these videos and it's all, you know, all revolving around the same theme. Steve watches something on TikTok and then he'll explain why that person is wrong or whatever. Like, you know, we just kind of, you know, go into the some of the more Wilder things that people are talking about and and bend the the skeptical eye at it. But this one we, you know, me, Steve and Ian were like, what happened?

S: Wish we knew the formula just happened.

J: Happy about it, but it is what it is. Oh, and Steve, I can't forget. Hold on. Yeah, these events in DC are fantastic, and I do hope that you can make it, but my God, you got to go to Nauticon. This is our socializing conference. This is the conference where people make connections with each other. Tons of social socializing. We have a ton of entertainment that we do George Hob, Brian Wecht and Andrea Jones Roy will join all of us here at the SGU. It's 2.2 days of a lot of fun and we really hope that you can join us. You can go to notaconcon.com, right? That's not a con con CONCON dot COM com Bob, are you understanding what I'm saying? Pretty simple. Right. It's not a con con.com, Ian, I swear to God. All right, so anyway guys.

C: Did you say 2.2 days?

US#04: Yes, roughly, yeah, because it's.

C: Signature.

J: It's you don't need to explain that, Jay. Anyway, tenths of a day you'll see because you'll be there. So anyway, if you've tried to join us for that, it's going to be a wonderful thing. You know, we need some happiness in the world and their happiness will be there. So please join us.

S: All right. Thanks, Jay.

Emails (1:07:20)

S: We're going to do 1 quick e-mail. This comes from Mike Hampton, who writes on Friday's live stream. You began talking about phrases like way, anchor and such. It reminded me of a phrase that I think wins the award for the dumbest phrase. This that is, you've got your work cut out for you. I lived most of my life thinking this phrase meant you have an easy road ahead, which is what it should mean. Any project you do that involves cutting, whether that be carpentry, paper, craft, sewing, etcetera, at least 1/4 to 1/3 of the project is cutting the material to the sizes and patterns you need. So if someone has prepared the material by cutting it out for you, the project is suddenly that much easier and going to make and going to take less time. I was shocked to learn, shocked, shocked. It actually means the opposite, which shot that phrase to the dumbest phrase in the English language as far as I'm concerned. So I looked into it because I love the etymology, especially of of these kind kind of phrases. Do you guys, where's, what's your guess? Where does that phrase come from? What's the origin of you? You've got your work cut out for you. Oh.

E: Gosh, I'd only be guessing.

C: I mean, yeah, who knows?

E: Farming. Something with farming? Yeah, that.

S: Tailoring, it comes from tailoring which is on his list, sewing and usually the way you know like a a professional tailor would work is they would have an assistant. The assistant would cut out all the patterns and they would for a, a dress or whatever, anything that they were going to make and they would do all of that ahead of time. And the, the primary reason for that was to make sure that they had everything right. So you cut out all of the pieces, you make sure that every piece is there, and then the tailor would sew them all together into the final piece that says the final dress or whatever. Now the the sewing was the that's where all you know most of the skill.

E: The artistry.

S: The artistry and the and that was let very exacting and complicated work, whereas the cutting was, you know, you're cutting it out of a pattern. Not that that, you know, wasn't a lot of work, but that wasn't what you know, the tailors work. So as a tailor, if you have your work cut out for you, that means you have a lot of work ahead of you. All that intricate sewing ahead of you. I see somebody else I.

C: Get what the dude is saying? Because if you don't have your work cut out for you, there's even more work. Well, right.

S: I hear what he's saying, but that but that but because there was built into the origin of this phrase, this division of Labor, not for the tailor. You have nothing to do because your assistant hasn't cut out the patterns.

C: Right, so you get to rest right now, but once your work is cut out for you then. Your work begins.

S: So basically this is when your work begins, when the work is cut quote UN quote cut out for you.

C: But that's not really how we use the phrase.

E: No, we've, we've twisted it a bit. Well, now you have a long road ahead of you.

C: Yeah, it's going to get rough now from here on out.

S: Yeah, yeah. But basically you have a lot of work or difficult work or like, yeah, like you have a job to do. Like this is your job and you've got to do it. Yeah, that the uses evolve, you know, over time, but it does make sense in the context of it does. But yes, some phrases do end up meaning the opposite of what they originally meant. Like, for example, blood is thicker than water. We've talked about this on the show before. Means the. That's because it doesn't it lob off the last part. Yeah, it's the blood of the, I forget that was like the the blood of the Christ is thicker than the water of the womb or something. And it means the opposite of what people use it to mean now it it means that your dedication to your religion is stronger than your familial ties, where people now use it to mean that your familial ties are the strongest. The blood is thicker than water.

C: Yeah.

S: It was flipped in its meaning. Yeah. Interesting.

C: But always fast. We we do that a lot where we shorten the phrase and the phrase I I've seen a few other examples of this where there's a long phrase with a moral at the end, but when we shorten it we only focus on the 1st sentence, which is actually the opposite of the point.

S: Like the proof is in the proof. Is in the pudding.

E: Of the pudding. Pudding.

S: Is it is it the tasting or this is my one of my big peas and people say I could care less.

E: Yes. Oh my God.

S: You can, yeah.

E: You care more, so you care more.

S: You, I couldn't care less. I care so little, I couldn't possibly care even less. But people, they shorten it because we tend to shorten things. But that it'd be flips the meaning when you shorten.

B: That's annoying. That's annoying. Yeah. Everyone out there, just stop that one.

S: Say I couldn't add the int. I couldn't care less, please. OK guys, we have a great interview coming up with Kevin Falta. So let's go on with that interview now. Well, we are joined now by Kevin Falta. Kevin, welcome back to the SGU.

US#05: Yeah, thank you. It's really nice to be here again.

S: Yeah, it's been a while.

Interview with Kevin Folta (1:12:27)

S: And it's always good to interview people in person, you know, so we could look face to face and have a discussion rather than over the interwebbies. So I've been dying to talk to you about a topic about a new technique that we talked about just very, very briefly about that plant biologists are using to make new cultivars. You know what I'm talking.

US#05: About Well, yeah, this was the work that was done. We've mentioned just briefly with Judd Ward and the folks. I can't remember the name of the company now, but the newest it's a new technique that is involving doubling the genetic material inside of a cell. So basically creating a not just the old polyploids, but actually creating hybrids from hybrids. So allowing complete genetic sets being to pass down. So you're not getting genetic mixing in each generation.

S: So, yeah, so if you make a hybrid, then you can have those hybrid traits breed through to subsequent generations.

US#05: That's right, you. Have a breed through going forward.

S: Yeah, because right now you can't do that with a hybrid.

US#05: That's right.

S: This is something that we that I know we we bring up when we're talking about GMO's and we should probably remind our audience you are a plant biologist and tell us.

US#05: Well, I'm a molecular biologist by training. I ended up working in plants and we do a lot of work in genomics, mostly around flavors and aromas, but other other major plant traits that are involved in hoarder traits that are important for farmers.

S: You're still a strawberry guy though.

US#05: Not so much. I'm out of strawberries now. Now.

S: Because I wanted to get my new, you know, strawberries from you.

C: I tried those strawberries like on camera once, yeah. Yeah, that's right.

US#05: We did.

C: We did.

US#05: And all those strawberries went the autoclave. Unfortunately we created a fungus resistant strawberry and we but the industry wouldn't use it, so it's gone.

J: Right. So Kevin, you, you, you selectively bred these strawberries, right? Just correct me when I'm wrong.

US#05: I'll be wrong.

J: That's why, That's why I asked.

US#05: You but yeah, these were a a variety that already existed that we added a gene that would prime its immune system. So even before a pathogen came along, it was ready to confront the pathogen. So and it was awesome because they didn't get as sick you could they would recover from disease. It was great. And as we know, fungicide or strawberries are fungicide dependent crops and so it allowed us to potentially make something that would help the industry farm with fewer fungicides, which is great for the environment, great for farmers, but there was a lukewarm feeling in the industry about it so.

C: Because it was GM.

US#05: Because it was genetically.

E: Oh my gosh, really?

C: What where the gene? Was it a synthetic insertion? Was it something from another Organism?

US#05: It was a plant gene in a plant. So as a plant was from a rabbit, opsis and cotton.

C: No.

US#05: Rabidopsis is the little white lab mouse, yes.

C: A little the lab mouse of plants of.

US#05: Plants, right? And so we put that in and it seemed to prime. It did great. The strawberry did wonderfully, but it did have a yield hit. So in other words, you were resistant to disease, but yet a slight dip in yield. And between that and the genetic engineering trait, they weren't so excited.

C: That's so interesting because a slight dip in yield, yes, I could see on paper that would be frightening to a farmer. But when all of your crop gets taken by fungus, that's a big dip in yield, so I guess they're willing to hold the night.

S: Term might be positive.

J: Way more importantly, they were delicious and people need to, you know, people I think would be very responsive to it if they knew how good they were.

US#05: Yeah. But the base that comes from the base hybrid, the basic strawberry, was so good that, you know, you had one more gene. You couldn't taste it.

J: Yeah.

US#05: It just purely was in the management. It was allowing farmers to use less chemistry, which is really expensive to apply.

J: Right, So why? You might not know this answer, but why would we still get these supermarket strawberries that don't have a lot of flavor? Like why aren't they do starting to grow these even even without the AT gene editing?

US#05: But that's changing. And it's because over the last decade, my lab spent a lot of time identifying the genes that control the traits that consumers really like. So we identified, we interviewed consumers, having them taste strawberries, and they tasted hundreds of different kinds of strawberries. And then we went through and did principal component analysis. So we took a strawberry, exploded it into its chemistry, and then said which ones always line up with consumer liking. And there was always a list of 12 that consumers really liked. You know that when the consumers liked it, one of those 12 or multiples of those 12 is available. So then we found the genes that underlie those 12 volatile aroma traits. And then once we had those genes nailed down, identified markers associated with them. So DNA signatures that would then, as they were inherited, would allow us to get all of them in one place. So that work is still ongoing by the strawberry breeding program.

C: And that's conventional breeding. It's conventional breeding. You're not actually turning those genes on. You're just finding cultivars that already have them and breeding them together. That's right.

US#05: And the cool part is, is this is all done in a seedling. In the old days, we used to have to put out 10 acres of strawberries and taste them and run them through gas chromatography to find the ones that had it. Now you take 384 seedlings in a, in a Petri dish, basically do the assay and then throw away the ones that don't have the markers. So this work is still ongoing in the University of Florida and I'm I'm a little bit separate from it these days.

C: Can can I can I ask a quick question like with this example, now that we have that kind of in our minds of how that works, could you just like crisper those things on?

US#05: Now that's more possible, yes.

C: And would that then be considered? Obviously it is genetic engineering, but it would be would it be considered genetically modified Organism?

US#05: That would be only if we left around the hardware that did the edit. So if you had CAS 9, if you had the enzyme that does the little scissors trick, if that enzyme was engineered in to do the work, then it would be one thing. But there's a lot of plants where you can engineer a single cell with CRISPR and do it in a single cell with the protein itself rather than have to install the gene. So in other words, you just put in the hardware rather than have the cell make the hardware.

C: Oh my God this is so annoying that you have to worry about. Oh yeah, totally.

US#05: But then you have that one cell, and sometimes you can get that in the two cells, 5 cells, 10 or whatever, and then eventually having a whole plant from that one cell, that one's foreign DNA free. Yeah, it contains the edit you're looking for, right? That one is not a regulated article by the US. It's.

S: Genetically engineered but not genetically modified in the US is that. Correct.

US#05: Well, it's not a as the USDA says, it's not a regulated article.

C: Yeah. It's such. That's the bottom line, yeah. It just show, it just goes to show that, yeah, the fundamental choices that are made in in legislation around this are are so divorced from the science. Yeah.

J: I mean, people that, you know, have this perception that if they eat a genetically modified Organism, that's going to do something to them.

S: To their DNA.

J: To their DNA and everything. And again, it's misinformation, it's disinformation. It's big industry. There's, you know, there's motivations behind all this stuff.

S: I want to get back to the hybrids, right. So just as we were saying that when you hybrid 2 plants together, the daughter plants have a certain mix of genes that whatever is a good a good crop. But if you take those seeds and breed them together, together, you end up with a mix of genes that might not be what you want. So and now before GMO's came out, like 9598% of crop seeds were hybrids.

US#05: Also are.

S: Yeah, yeah, it's still, it's like they can't be. You can't save your seeds and replant them, which is like an annoying thing about the whole anti GMO thing. You can't save seeds. So you never could. You could never do that with the hybrids. But now what you're saying is you can make a cultivar where the hybrid traits do go through to subsequent generations because so is that like in the seeds now or is that you still have to do it every?

US#05: Every generation it is a once you have the first plant, there's a process that you break basically break meiosis, right? So it's the the the segregation of alleles during or of genetic complements during segregation of gametes. I know I got to straighten that out. He's talking about sex.

C: Yeah, basically.

US#05: When you're making the, you're making the pollen and the egg cells, you you make sure that that doesn't reduce its gametes, It doesn't go down with half the genetic.

C: Oh, interesting.

US#05: Passes the whole thing in one of the two.

C: So you're turning meiosis into mitosis?

US#05: You're basically turning meiosis into mitosis.

C: Interesting.

US#05: That's passing down it's it's genetic material.

C: Right. So instead of reduction division, you're just dividing the cells. Yeah, and 1:00.

US#05: One of them gets the entire complement of the hybrid, the other one gets nothing.

C: And so, so quick question just to interject when when a hybrid in the before times like you were talking about, which is still the now times when a hybrid would breed with a hybrid, you might it's like Punnett squares, right? Then you might get traits that were undesirable, but are they always even viable? Like because I'm thinking about animal biology, which is where I come from, and sometimes hybrids can't breed, right.

US#05: That's true.

C: Does that have an implants as well?

US#05: Yeah, there's there are examples where plants produce infertile offspring, but that's usually a function of polyploidy. So if you can. So like a seedless watermelon is a combination of one that has four times the genetic material bred against one that has the normal complement and it comes out with 3X and and so that's where you get seedlessness.

S: That's deliberate to make it seedless.

US#05: That's deliberate. So you have to have the right female flowers in the field and the right male flowers. Yeah, yeah, yeah. Cool stuff.

J: So Kevin, there's a question that I've been wanting to ask you for a long time. I've been saying on the show a lot, you know, like everything we eat, all the food, all the meats, every all this stuff, it's all been selectively bred, right? And some of it has been genetically engineered. So we have this limited spectrum of different types of fruits and vegetables and meats and everything. But I'm curious to know, like, how broad could this flavor profile be? Like could there be a million more brand new fruits that don't taste like anything we've ever tasted before that just haven't been created yet?

US#05: Absolutely. Yeah. There's, there's so much volatile diversity out there. And what you're looking at is, is a combination of two different things. There's the volatiles that are out there, which are the major things that shape flavor along with acids and sugars and other, other aspects where the tongue and the, and the olfactory system collide in the brain, right, with all the different things it's sensing. But there's so many unusual volatiles that are out there, and we find things all the time, but also things that disrupt your ability to perceive them. So things like miracle fruit. You can eat a miracle fruit and then not be able to. And then when you taste acid, it tastes sweet.

J: Yeah.

US#05: So there's a it's a weird sensory combination that's very interesting.

J: So to visualize it, this might be a hard thing to answer, but like we have like these little, you know, along along the horizon, we have like a pineapple and watermelon, blah, blah, blah. But there, I mean, literally, there could be like millions of fruit flavors that we've never tasted before.

US#05: Well, there. Well, maybe you've tasted them, but you don't know you did. Because what's happening in a strawberry, there are very small hints of the major flavor of Peach and the major flavor of grape, and you have to think of it like an orchestra. All these things contribute just a tiny little bit that's barely perceptible unless you're really know what you're looking for. But we can use gas chroma photography and other analytical methods, analytical chemistry methods to be able to detect them. And consumers notice when they're not there, even if they don't know why. Know why, right?

S: So maybe we can think about this in two ways. One is if you have all the fruity flavors that we could taste, right, then a fruit is some combination of those flavors. Some subset, and some are more powerful than others. So yes, strawberry has Peach in it, but a Peach has a lot of Peach in it. That's right. So but they're also potentially, like, we talk about the chemical space, you know, like, is there a space of flavors that nature hasn't necessarily fully explored all of those flavors, and maybe there was more room for even new flavors that we've never tasted before.

US#05: Can we even know? Yeah.

S: Can we even know about?

US#05: That that's interesting. I think there probably are. I think if you start going into into especially floral aromas where you're attracting pollinators and unusual pollinators, where you attract the enemies of herbivores. So you have plants that are being fed or being fed upon, and then the plant will reduce will exude volatiles to attract the predator of the thing that's feeding on it. It kind of calls in the troops. But all these things may have some sort of flavor response in us, but we just haven't integrated them into fruits and vegetables. You know, there's the, the, the volatile Om is extensively.

S: Yeah, right. Exactly. There might be there may be flavors in plants that are delicious, but the plants are poisonous to humans. Could be so we could make a non poisonous version of them or get their genes into stuff we can eat.

US#05: Absolutely. And all kinds of other interesting stuff, not just, you know, flavor, not just flavors and aromas. Look at like Szechuan pop, peppercorns that have that numbing effect. There's so many an interesting sensory aspects of plant biology and I wish I still played in that field. I really kind of moved out of it a bunch just because now it's in the hands of the Breeders. Now they got to put it all together.

B: It reminds me I was reading an article about medieval. Food. And and what it tasted like. And they're the flavor profiles that they enjoyed modern people had that they would be like, what did I just eat? That was horrible. But it's making me think in the future that people of our future, our descendants might think, might feel bad for us. Because in like, Can you imagine? They had such, so few things to eat, so few fruits, and they're enjoying, they have this cornucopia of, of tastes and flavors and volatiles that we just can't even imagine right now. And they're just like they they would think of. Us, I think people are also poor. People that had horrible food.

E: Tainted people are can be tainted by these artificial flavors that are out there. They think they know what a strawberry tastes like because they taste enough artificial strawberry. They don't really know what a strawberry really is supposed to taste like.

C: But isn't isn't so much of food science understanding the basic interests of the consumer? And consumers like fat, they like sugar, they like things that historically, evolutionarily, were rare. And if we can make healthy food taste that way, then we can have the best of both girls, and I'm down for that.

US#05: Yeah, well, that was one of the big issues was could you find volatiles that replace sweetness And, and, and you can. That's been some work by Linda Bartoshuk in our in our institution, a guy named Thomas Calhoun, They were looking at the flavor volatiles that made people sense sweetness in the absence of sugar. And so you would take 2 glasses of water, put in a tablespoon of sugar and mix it in one of them. You would add some of these fruity volatiles and people would say the one with the volatiles was sweeter even if they couldn't perceive the volatiles.

J: Yeah, but it's, it's incredible when you think of like, you know, someone who enjoys cooking a lot of Italian food, right? You know, onions and garlic, you know, these are like the basis of so many different things in that, right? And then like, you can go to India now and like the basis of their flavors. There's a lot of curries which are constructed flavors anyway, right? Like the complexity is so broad that could you imagine if there was like another 50 culture versions of food that we just have no idea what it tastes like? But it's partly because we don't have the vegetables and the, and the big, the beginnings to start those, all those completely different types of foods that could be out there. You know, I, I just love that 'cause I just think, like Bob said, in the future, people might have access to this stuff. They might be able to like genetically engineer something like just by talking to an AI and then grow it and be like, Oh my God, I made a new freaking fruit. Never had no one's ever tasted this before.

E: That's. Cool. Are they using?

US#05: AI in the US development, yeah, they are using this and mostly that's happening with the Breeders now that's not anything my lab is working on the opposite of AI. We we decided why everyone's going AI we're just going to go to kind of ignorant randomness. And So what we decided to do, this is the coolest new science we were taking. We always wanted to take an Organism and just put random DNA in it and see what comes from it and.

S: What do you mean by random DNA?

US#05: Random DNA?

S: So random genes? Like literally random. Sequence.

US#05: Random sequence.

S: So it's not even a gene.

US#05: It's not even a gene. It never. It encodes a protein product, a peptide that has never existed in the universe before.

C: So instead of sort of having a hypothesis and going top down, theoretically you're just like going bottom up and going, what happens if we just mix this stuff up making?

US#05: A whole bunch of shit. Against Yeah, see what sticks. I always liken it to throwing monkey wrenches in the machine that you're standing next to this elaborate machine throwing monkey wrenches in. Most of the time they don't do anything, but once in a while one sticks in the gears. And so this is the coolest thing that we've been doing 'cause we've been showing in bacteria as well as plants that we can identify new vulnerabilities for lethality by using random peptides. And the random peptides stick in either in different places that or the random RNAs suppress RNA that's required for certain developmental transitions. And so why this is so cool is because we're not going to create a new herbicide or a new antibiotic by creating a peptide or a mimic of that peptide. But what we will expose is a new vulnerability we didn't know about before, and then have smart people who design molecules make something that fits that vulnerability.

S: Is this like a new kind of mutation farming where again you're just trying to make random shit happen to see what, if anything, good comes of it?

US#05: It's similar, I think. It's even weirder, I think. Even weirder? Yeah, this is, this is just, this is pure just and you have to have huge populations to be able to do this. But still with large populations, we find that lethality in about 5%, which is pretty amazing. It's much higher than we would have predicted.

J: What plants are doing this in?

US#05: Or doing this in a rabbit Opsis, which is the laboratory plant, but it also works in bacteria that we can disrupt very well characterized bacterial processes.

B: Oh wow.

US#05: With randomness, yeah.

S: How do you feel the GMO attitudes are out there in the country is? How have we made any progress? Are things getting better or are they? Do we just stop talking about it? What's?

US#05: Going on, we have absolutely made progress. Yeah. And and I teach classes now on I teach a class on critical thinking and agriculture and medicine. They designed this course and it is so much fun. And we talk about all the different ways in which we are deceived, deceived ourselves, cognitive bias, statistical deception, all the things like that that you guys talk about every week. It's fantastic. We talk about alternative medicine, then we talk about genetic engineering. And now when I talk about GM OS, everybody kind of glazes over. Nobody cares. None of the students are thinking it's a threat or a problem. There's no problem to solve in that room. But then it turns into how do we solve the problem that's still out there in the public? And how do I deputize this room of 30 students to engage their their skeptical friends? And how do I get them to engage online? We're in social media where this stuff runs rampant and how do we do it effectively. And so that's where I've really just taken such a turn away from biology, science in the much more sociology and psychology and understand how we can be better persuaders.

S: Yeah.

US#05: And then I think that's been just the magic in the last the last 10 years.

S: Absolutely, Absolutely. Obviously this is what we do, thinking very carefully about how do we persuade the people individually, the general population, you know, the people who matter in terms of like regulators and whatnot. And it's just tricky and each topic is different. But I think, yeah, the I also think that we've been moving the needle on that. I do think because this topic is amenable to information and there was just, we are just combating this information and it's very correctable. I also think, and this is just now just my gut feeling is that a lot of the pushback against the GMO's, the anti GMO attitude was just an unfamiliarity with the technology and just a disgust kind of reaction to it. I think this is my hope, my thought and my hope that much like IVF, in vitro fertilization, remember the test tube babies and all the protests and everything, and now nobody cares, right? I'm just hoping that the same thing is going to happen. Like Jennifer ensuring everything is genetically engineered, who cares, right? Do you think that we're heading in?

US#05: That I agree 100%. I also think there's a lot of disaster fatigue.

S: Yeah.

US#05: That we've been told, well, you're, you know, you're going to get lumpy and and you know, things are going to fall off and all the problems that we're going to have never material. Never happened, Yeah. And I think that has a big role in that too. And so now when we can remind people of what they said, of what the opponents said, and then we can show the progress of where it's going and we can show all the beautiful things that we could be doing that people do change their minds. And you can kind of persuade there still is a rather vigorous anti GMO movement out there that if you look for it you can find.

S: No question.

US#05: But it's all it's, it is changing. And the big, the big problem is, is that so many of the really good innovations that we have still haven't hit the road and that rubber hasn't hit the road. And so all the, you know, we don't have golden rice yet. You know, we don't have the bananas, the soybeans, all the other stuff that could solve vitamin A deficiency.

C: When the stuff, but also it's like when the solutions are feel like they're happening in the background to solve ever increasing problem problems like, oh, here's a solution to solve a blight that you never would have even known was there because we got out in front of it before it devastated the crop. People don't recognize all of the progress. They only recognize the progress when there's like a fundamental or radical change. And so I think that's always a problem, is that in science, so much of what we have to do is to try to prevent devastation, and then people don't recognize that we prevented the devastation.

S: We stopped COVID from happening. Nobody would. Know.

C: Exactly.

J: That's my job as a producer.

C: Right. Yeah.

J: Your job? Well, nobody.

C: Knows that you did it. Or that it was hard. Yeah.

J: So I think that that's crazy. I and I agree with you. And I, I think, you know, we were in a situation where we fight hard, many fronts and GMOs are like, you know, I think it's ironic when, you know, there was. What was it, Steve? Was it papaya or was it papaya in Hawaii? When Hawaii had a papaya blight, they just were like, we're going to plant the GMOs and.

S: We're just not going to quietly ignore the papaya because otherwise the fine should go, right? I like that that example. I also used the cheese example. It's like there would be no cheese industry without GMO rennet. Like right? Forget about.

J: But you what I think though, I think the big one is going to be chocolate. Yeah, because there's there is a, there is a cowblade. Yeah, right.

S: You know this GMO save chocolate? Then we've won, no?

J: But that's what I said. No, I, no, I it's funny. It's funny. But I really do think like, imagine if like chocolate went away for a little while, We could bring it back. We have GMO, we'll bring it back. You'll have it in six months. People look like the.

S: American chestnut tree is that you know, Yeah, yeah. But yeah, I agree. I do think like the like the anti GMO crowd like panicking a little bit about golden rice and some of these applications. I think they know that like if we solve vitamin A deficiency or make a huge improvement with a GMO food, that breaks all of their propaganda. It's not patented. It's not controlled by Monsanto or some big corporation. It's free to farmers. They can plant their own seeds, whatever. None of your your boogeyman is true and it's going to receive in blankets. You know, it's like a perfect PR, you know, Superstorm pro GMO and you know, against the that's that way, Steve, you're right. They're panicking about. That's why they're so desperate for not to come to market.

C: It would also help I think a lot of the people who are on the fence or who are confused understand the difference between genetically modified organisms and corporate practices. Right, because very often they conflate the 2/1.

S: 100% yeah, almost always when I'm talking to a skeptic who's anti GMO, it's that's.

C: Yeah, that's corporate stuff that.

S: They it's like, it's really, I don't think corporations should have that much power. Well, they already do.

C: Yeah, this is not changing. That's not what we're talking about. Yeah, that's. What we're?

S: Talking about is the anti GMO lobby waning?

US#05: Yeah, I think so, especially because gene editing has been so democratizing. So going back to this CRISPR CAS 9, the ability to change a letter or two, that's been that technology has been very in the hands of universities and small companies and it's just as a different field. Small governments can do it, everybody can do it. And with that kind of ability, it really changes the dynamic of who can bring a, who can bring a product to market. The traditional transgenic approach, what we usually think about, is genetically modified. The fact that it was so regulated and that people pushed for more regulation meant that only a couple of companies who had the ability.

S: It was like 3 or 4 companies, right? They were putting out all the.

US#05: GMOs and and those three or four companies said, you know what, make the process harder? Yeah, make it harder because if you make that process harder, it gives us exclusivity in that space. And so the anti GMO folks who are out there who said we hate these companies were doing nothing more than empowering the companies.

C: They hate it. Hilarious that the yeah, that these companies were like, yeah, keep and they were of your protest.

US#05: They were. Actually.

S: Really doing the Devils. Yeah, regulate the hell out of it, right? Because then nobody can compete with us, right? Yeah. Anything else you want us to talk about that we didn't get?

US#05: To no, I think that's pretty much it. I I the one thing that it may be to mention is people do need to be participating in these conversations still and that it's not a dead issue. We can't get complacent and you never because it'll come right back. It it has the possibility to come back. And now if they're fighting things like appeal, you know, this coating that you put on fruit to make it laugh longer saying that it's Bill Gates poison, you know? And more Bill Gates. And never give away billions of dollars, you know so but all of these things are still still being discussed. But the, the bottom line is, is they limit how technology can reach the poorest people on the planet. The affluent are not missing meals, right? And so being active in this and remembering who we're really trying to help here and making food last longer, make it taste better, all that stuff, that's what we have to be doing. We got to keep on it.

S: Well, thank you for your service.

US#05: We appreciate it, Kevin.

S: Kevin doing the good work.

Science or Fiction (1:37:35)

Theme: US Trivia

Item #1: Kansas is not only the flattest state in the US, it is literally flatter than a pancake, with a flatness score of 0.9997.[6]
Item #2: The coastline of Alaska is longer than the coastlines of all the other 49 states combined.[7]
Item #3: The first telephone directory in the world was published in New Haven, CT in 1878. The names were not alphabetized and there were no phone numbers included.[8]

Answer Item
Fiction Item #1
Science Item #2
Science
Item #3
Host Result
Steve
Rogue Guess


Voice-over: It's time for science or fiction.

S: Each week I come up with three Science News items or facts, 2 real and one fake. Then I challenge my panel of skeptics to tell me which one is the fake. We have a theme. This week the theme is US trivia. That's randomoid facts about the US.

E: Random. All right, here we go.

S: Kansas is not only the flattest state in the US, it is literally flatter than a pancake with a flatness score of 0.9997. I #2 The coastline of Alaska is longer than the coastlines of all the other 49 states combined. And I number three. The first telephone directory in the world was published in New Haven, CT in 1878. The names were not alphabetized and there were no phone numbers included. Evan, go first.

E: Well, Kansas, yes, that's the name of a star according to a movie I once watched, Wizard of Oz Anyone know? Literally flatter than a pancake. Wow, that's flat. That's pretty flat, although, well, I didn't even know there was this thing called a flatness score. Frankly, even in these flat, flat states, you are going to have some elevation differences, right? So saying it's flatter in the pancake, I have no, really can't say the coastline of Alaska #2 longer than the coastlines of all the other 49 states combined. OK, so thing you got to remember about Alaska, Alaska's big, it is the largest state for area. And also Alaska's got all these little islands among so many other things. So and, and that coastline is a, a kind of a jagged maze. So could it be, could it be longer than the rest of all the coastlines? I think it could be. I have a feeling that one is going to wind up being science. And the last one about the first telephone directory in New Haven, CT. It's not far from here. 1878 names were not alphabetized and there were no phone numbers included. I have a feeling that one is also science. Therefore I'm dubious about the whole pancake flatness Kansas thing. That one, I think, is fiction.

B: OK, Bob all. Right, Kansas, not the flattest state. Oh, it is. It is the flattest. Yeah, I could see it being flatter than a pancake. I mean, pancakes generally are a little domed, you know, because just the nature of how you just spread it, it just glop it on and then it spreads, right? It's got a viscosity, it spreads and you know, it's the, the middle's never going to spread quite as much as the outer edges. It just seems to me that that's not that big of a deal. The, the Alaska one. That's tough. I assume that when comparing the cosine of Alaska and the rest of the United States that they use the same fractal dimension for all of that, those measurements. I'll just, I'll make that. I'll make that assumption. We will make that. Assumption you have to because then you could say you could say Florida has more coastline than every other country on the planet. If you if you messed around with your fractal dimensions. Thinking about it, it seems like it would be close, but I think there's kind of like lots of little insurance and outs of Alaska. So it might it might sneak by and actually be a little bit longer. I don't think it's I don't think it's by a dramatic amount, but so that would mean this last. I don't know what to make of this stupid. So it's a phone directory, not in alphabetical order. And Oh yeah, it doesn't have phone numbers. What the hell? Why then then it's not then it's not a phone direct telephone directory. I don't know what you would call it, but not a telephone directory. So I don't know what the hell is going on with that. I'm just going to say Alaska fiction.

J: OK, Jay. Yeah, so going backwards, I mean, I I you live close to New Haven, you know, we both do. I never heard of this, but, you know, this is one of those news items. I'm like, I don't see any reason why, you know, the first telephone directory wasn't published in New Haven. OK. I mean, there's nothing really there that's making me go, Hey, you know, now let's keep in mind about item number 2 here, that Alaska is freaking huge. And most of the times that you see a picture of it, it isn't relative size. It's not the actual size compared to the other things on the map.

US#09: That's true. The Mercator projection will.

J: Expand, you know, it's got tons and tons of jigs and Jags and islands and blah, blah blah. You know, it just like adds up. So I you know, I think that's probably true. I mean, I can't imagine, I can't imagine easily that it has more coastline just because of all the shapes. You know, you look down California, you know, relatively straight, look down the East Coast relatively straight, you know, last because it just got so much busy going on. So that leads me to the first one here. I wonder if they took into account the the curvature of the Earth when they said how flat Kansas is. But it could be in like a basin, I guess. And I have no reason to not believe that it's wicked flat. I don't know about the number that Steve said, but I do not think that Kansas is the flattest state. I just don't think it is. I have reasons to believe this. And I will say that this one is a fiction. And Kara.

C: Yeah, I got to go with, is that just Jay or is that Jay and Evan? I got to go with Jay and Evan on this because I seem to remember living in Florida and Florida being really damn flat, like really flat. And I don't know, maybe Kansas is flatter, but I bet you Florida gives it a run for its money. I buy the Alaska 1. I think we have to remember that also a lot of the US is actually landlocked. So like we're not just coastline all the way around. I'm with Bob on the whole, like why is it called a telephone directory? But my assumption is 1878. Did they not have phone numbers? Was it like telegrams or something? What was before phones? Telegraphs.

B: Smoke Telegraphs.

C: Yeah, it was a smoke signal directory, so maybe it's something like that and they just, I don't know, But I think I'm going to go with Evan and Jay and say that Kansas is not the flattest state in the USI have no idea if it's flatter than a pancake, though.

S: All right. So you all agree on the third one, so we'll start there. The first telephone directory in the world was published in New Haven, CT in 1878. The names were not alphabetized and there were no phone numbers included. You guys all think this one is science and this one is science. And yes, the telephone directory was a telephone directory, not some other kind of directory that they just called the telephone directory. Do you know why there were no phone numbers listed?

E: Because operators. Only like 8 names or something there.

S: Why you would just call the operator phone? Numbers did not exist.

E: Yeah, you would call up and you would just give me Joe. Handle and. Yeah, talk to. I could talk to.

S: The yeah, give me give me Joe bag of Donuts. And then we and then the operator would know who he was and would literally just connect you. To the. Person.

US#09: That's right.

S: Guess how many names were included? 1860 I think it was like 8.

E: Or 9.

S: 150 fifty 55 Zero. Yeah. So that was basically all the businesses and people who had phones in the New Haven area. And how many? Yeah. And you had, you know, you'd call the switchboards. They connected me to this person. And then, you know, a few years later when, you know, they had more people, they said, you know, we should probably put these names in alphabetical order. And why don't we just assign numbers to them in case we have somebody like, you know, there's an operator who's who's covering who doesn't know everyone's name. You know, like, that was the next step. And then that's where in phone numbers were invented. Yeah. First one in New Haven, CT or I guess we'll go backwards. The coastline of Alaska is longer than the coastlines of all the other 49 states combined. Bob, You think this one is the fiction? Everyone else thinks this one is science and this one is science. This is science. Sorry, Bob. So what are yeah, Mercator distortion, right? Because because if.

B: You look at a if you. Look at a map. Flat map if you. Yeah. It's still pretty.

S: Perceptive it's it's not as big as it looks on the Mercator projection, but it's still big. But it is really because of what some of you said. It's got so many jigs and Jags and islands that it just, and there's like that, that one huge, you know, Panhandle, I think at the like the whisker thing at the bottom of Alaska. It's just if you look at it, it's a lot of coastline. The rest of the US has a lot of coastline too, but it doesn't get up to quite as much as.

B: What's the what's the ratio?

S: Well, Alaska has 34,000 miles of coastline, officially the next. What's the next most coastline? Which state? Which state? Hawaii.

US#10: Maybe California.

S: Florida. Florida. It's Florida, which has like 8000. It's not even close. Yeah, it's for.

US#10: States. What's the total though of the the states?

S: Less than 34,000. I don't know.

US#10: Yeah, it's going to represent that.

S: Yeah, it's less than that. Yeah. I think it's by a lot. Like it's not even close. So yeah, because it's because of how crazy the Alaska coastline is, as Jay said, like the West Coast is pretty straight, the East Coast is mostly straight, then you get Florida, and then it's straight again. OK, let's go back #1 Kansas is not only the flattest state in the US, it is literally flatter than a pancake with a flatness score of 0.9997. That, of course, is the fiction. The flattest state, Cara is Florida.

US#04: No way.

S: Now, the other way to designate flattest, you could do a calculation of the difference between the highest point and the lowest point compared to its area, right? I mean, Evan, you have to imagine a pancake the size of a state. It would have a massive mountain in the middle, you know, I mean, like it would be there would be a massive difference between the height. But anyway, what do you think is the second flattest state after Florida?

C: I'm assuming not Kansas.

E: The second flattest.

S: Kentucky, Really. Then Delaware, Louisiana, Used to be Rhode Island, Indiana, Illinois, Ohio, Iowa, Wisconsin, Michigan, Missouri, Minnesota, New Jersey, Connecticut, Alabama, Arkansas, North Dakota, Pennsylvania and then Kansas. It's like right in the middle of the. Pack of.

E: The middle of the country and middle of.

S: The all and you all use one hill and you then that screws it up, screws you over. So the other way to designate it is just the difference between the high point and the low point, right? So for Florida, it's 345 feet. That's right.

E: That's the difference. I knew that I used that.

S: And the lowest point in Florida? Kentucky's close 388, Delaware's 450. Delaware's pretty flat as well.

E: I knew that fact about Florida. I would not have guessed Kentucky.

S: Kansas has #3363, it's not, we're near as flat as Florida, but it just has that reputation of being just like a big cornfield. You know, it's just a flat state, but it but it's flat on the pancake. That part is true. All right, well, good job, guys.

Skeptical Quote of the Week (1:48:02)


"There is only one thing worse than coming home from the lab to a sink full of dirty dishes, and that is not going to the lab at all."

 – Chien-Shiung Wu (Experimental Physicist) - Her nicknames include the "First Lady of Physics", the "Chinese Madame Curie" and the "Queen of Nuclear Research", (description of author)


S: Evan, give us a quote.

E: There is only one thing worse than coming home from the lab to a sink full of dirty dishes, and that's not going to the lab at all. That's a wonderful quote by Shane Shuing Wu, experimental physicist. She is considered the first She was considered the First Lady of Physics, the Chinese Madame Curie, and the Queen of Nuclear Research.

S: Awesome.

E: A very impressive resume she has. She should have won a Nobel Prize in Physics. She was part of a team that did win the 1957 Nobel Prize in Physics with two other Chinese researchers. But the men got the credit, and she did. Not. So again, another injustice that should have been should not have. Gone that way. Should not have happened that way.

S: All right. Well, thank you, Evan.

E: Yep.

S: And thank you all for joining me this week. Thanks, Steve.

E: You got it for man. Thank you, Steve.

S: And happy Thanksgiving, everyone.

E: And happy Thanksgiving, be safe out there, please.

S: Next episode will be will come out after Thanksgiving and that'll be the episode we recorded while we were at Sycon.

E: Right.

S: Yep. So and then we'll be back with a new episode in two weeks. And until next week, this is your Skeptics Guide to the Universe.


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