SGU Episode 1054: Difference between revisions

This episode was created by transcription-bot. Transcriptions should be highly accurate, but speakers are frequently misidentified; fixes require a human's helping hand. transcription-bot is only able to identify the voices of the main rogues. "Unknown Speakers" are therefore tagged as "US". To report issues or learn more about transcription-bot, visit https://github.com/mheguy/transcription-bot.

This episode needs: proofreading, links, 'Today I Learned' list, categories, segment redirects. Please help out by contributing!

How to Contribute

SGU Episode 1054
September 20th 2025
"An eerie reminder of past cultures and their unique practices."
SGU 1053                      SGU 1055
Skeptical Rogues
S: Steven Novella
B: Bob Novella
C: Cara Santa Maria
J: Jay Novella
E: Evan Bernstein
Quote of the Week
"Even if individual researchers are prone to falling in love with their own theories, the broader process of peer review and institutionalized skepticism are designed to ensure that, eventually, the best ideas prevail."
Chris Mooney
Links
Download Podcast
Show Notes
SGU Forum

Intro

E: You're listening to the Skeptic's Guide to the Universe, your escape to reality.

S: Hello, and welcome to the Skeptic's Guide to the Universe. Today is Tuesday, September 16th, 2025, and this is your host, Steven Novella. Joining me this week are Bob Novella. Everybody. Cara Santa Maria.

C: Howdy.

S: J Novella, Hey guys. And Evan Bernstein.

E: Good evening, folks.

S: So what's new, everyone?

J: We're going to Kansas this weekend.

E: Well, I think if you're hearing this now, we are in this, yeah.

J: We're probably like starting the private show as this comes out.

C: Oh, fascinating. Time travel's so weird.

E: And chances are we're going to run into a travelling potion salesman on the road who's going to, And then a tornado will come. It's all in the movie once, I think.

C: Oh, I had no idea where you were going. Yeah.

S: What's happening? And we'll all be in black and white.

E: Yes, the world will be black and white once again.

C: And you know, something we missed last week, I'm not sure if you guys saw, but on September 6th, we lost a scientific great, David Baltimore died. I, I think we've talked about him before on this show. He, I think most recently was at Caltech, which is how I knew of him. He was 87 years old when he died. He won a Nobel Prize when he he was, I think, 38. Yeah, I know. He's really, really young.

E: Because, yeah, Wow. Because not only because they have to, you have to wait a while after the science that you performed actually gets recognized for that prize. So he must have been what?

C: He was 37. OK, so he was 37 and split the prize with Renato Dolbeko and Howard Teman for quote their discoveries concerning the interaction between 2:00 viruses and the genetic material of the cell. Specifically, they discovered the enzyme reverse transcriptase, which is like huge. And then he went on to study all sorts of different aspects of Cancer Research, recombinant DNA research, immunology, virology. He was really, really instrumental in HIV research because of the work that he did on reverse transcriptase. He was also part of the Cancer Center at MIT. He, you know, worked at the Salk Institute early on. He ended up ultimately at Caltech doing continued, you know, important research on on gene editing and and yeah, died at the age of 87 of cancer.

E: She was.

J: That is like, right in the average age, you know, like that's a very common age for men to die at.

S: Well, what's life expectancy is like 7879, so it's past that.

C: Wow.

S: 80s is a good run.

J: Yeah. I thought 86 was the number no?

E: No, it seems. No, it seems high.

C: And this man, I mean, I'm looking right here at his legacy. He published over 700 peer reviewed articles.

E: Oh.

C: He won way back in like 1970. He won the Gustave Stern Award in virology. He's won awards from major companies, the Warren Alpert Foundation Prize, National Medical, National Medal of Science. Of course, he was in all of the big institutions and yeah, won a Nobel Prize. He's president of AAA, SI, Mean, just incredible career.

E: Wow, yeah, what a resume a.

C: Lot and he has honorary degree like 20 honorary. Degrees boy. That's such a weird thing, The honorary it is, right? Yeah.

E: That's just a nice tribute, a very nice.

C: Tribute.

E: Here's an honorary IQ.

C: How would you like some honorary dinner?

E: But virtually, yeah. Exactly. Here's your honorary mint. It's a waffle thin David.

News Items

Conspiracy Physics (04:10)

S: All right, well, let's go straight to some news items. I'm going to start us off with discussion of conspiracy physics. What do you guys?

B: Think that.

S: Refers to. Is that?

C: Like quantum bullshit.

E: Oh yeah, like Deepak Chopra kind of thing.

B: Is that what we talked about a few bunch of years ago? We were talking about that, you know, the probabilities of these of conspiracies actually working. As they've.

S: It's not the physics of conspiracy theories.

C: Is it like what the bleep? Do we know stuff?

S: Yeah, sort of. I mean, it's that and everything else. So there was a a Wall Street Journal article recently called The Rise of Conspiracy Physics, which discusses the popularity of social media influencers who claim that there is a vast conspiracy among academic physicists. So this is again, nothing new. And this is not unique to physics, but it is interesting, you know, having Ben and Jay can attest this as well. You know, we do Tik Toks every week and we're constantly, you know, combing social media for good skeptical topics. And it's a bottomless pit of these conspiracy narratives, which have a very familiar format. You know, where it's I noticed this strange thing and then leap to some massive ridiculous tin hat conspiracy theory, right? And it could be the Earth is flat or, you know, the electrical universe or quantum healing or whatever, just some weird thing. And then justifying, justifying it. And the fact that, you know, they get 0 attention among academic physicists or scientists, well, that's because they're all lying to you. It's a giant conspiracy, right? Yes.

C: And why?

S: Well, that's how you so you know, if you if you have an alternate theory of reality and it's not accepted physics, then you either you're wrong or all of physics is. Wrong, right? So they claim, well, all of physics is wrong. This is like everything you think you know was wrong and. Big physics. Is out to guys about everything.

C: And but what's their explanation for why all of physics would be lying to us, I guess.

S: They don't really have one. That's what I find is that.

B: Can't handle the truth?

S: It's yeah, it's whatever. It's because reasons, you know, I mean, it's just they're.

J: Aren't they looking for it though? I mean, they want they, they want to slip into that.

S: Pocket into what pocket?

J: Into the, you know, into the like, I know better and I found this thing, you know, like that's that's what we see that all the time.

C: Yeah, yeah, they, they are doing the I know better and I found this thing, but I feel like at least with the like anti medical establishment conspiracy theorists and they're you know what Big Pharma doesn't want you to know? They have some whole narrative about how like, it's really a cabal to keep you sick so they can keep selling you drugs and make all that money and.

S: The best they got is that, you know, scientists are doing it. You know, usually it's something, it could be super vague, like they don't want you to know how the world really works. Like, who is they and why don't they want you to know that? And what's they really doing? They don't have to really spell it out if they if for the those, the the more sophisticated version of that is that they're all just ginning up these lies to get research grants to keep the grant money going. It's like OK, but how does that work?

C: Oh yeah, big grant money, Yeah. How does?

S: Making up lies fund more research than doing good science, you know, And wouldn't other scientists immediately sniff them out? So then everybody has to be in on it again. It just gets ridiculous really fast. So I wrote about this. I went over a little bit like the this is just crank. These are cranks, right? And the history of crank behavior. So we've been doing this long enough, you know, basically pre saturation of the web, pre web 2 point O. So back in the analog days, what cranks would do to get the attention of anybody is they would send their manifesto to a scientist and say, look, I've proven Einstein wrong or whatever we used to get these.

C: We still get them sometimes.

S: We still get them. Now it's more e-mail, but we used to get like I've had two 300 page manifestos of pure nonsense.

E: You've read them all right?

S: Yeah.

C: I went line by line.

S: And then there's the Web 1.0 kind of cranks. You guys remember the The classic example is you guys remember the Time Cube?

E: Oh gosh, the Time Cube. Oh my ancient.

S: Long vertical scroll of incoherent nonsense and also self congratulatory. I'm the smartest person on the planet. And so that was the sort of the standard for a while and now it's more the social media version, which is you make a video or you write A blog post or whatever and it's just encapsulated. Although though sometimes they still do the manifesto. I did just one TikTok video on a woman who I don't even know what she was claiming. That's the crazy thing. I'm not even sure what her claim was. It's just that she thinks she solved autism and ADHD and everything and it's just this incoherent meandering, kind of linking to different articles and but there's no thesis, like there's no hypothesis.

E: If you can't express your own theory, you're in trouble right off the game.

S: So you have 150 page whatever, 200 whatever big it was, it's like.

E: You should be able to say it in 10 words or less.

S: Yeah, well, you should be able to make an executive summary like an elevated pitch. Give me a paragraph. Give me a page. If you can't summarize it in that sort of coherent way, then you probably don't. You probably don't have anything.

C: Well, yeah, every peer reviewed journal article requires that an abstract be included with it. That's what an abstract I.

E: Love Abstracts?

S: Give me the abstract. So you know, a lot of the. So the question is, why is this taking off? Why is there so much of it? And there's a lot of blaming the victims going on. So blaming physicists or scientists or academics or experts, right? It's all their fault that the cranks are out there on YouTube and TikTok. So, but, and it's really not in my opinion, it's not fair. It's not accurate because and they will say contradictory things. Well, academics ignore the cranks and let them flourish, or they respond to the cranks and give them attention. So whatever you do, it's your fault whether you respond to them or ignore them. You're just you're enabling the cranks.

E: Not a new problem, we've seen it for a long time.

C: That's. Infuriating though.

S: But here's the big thing. So this is the thing that really makes me furious is that, oh, it's scientists fault for for lying to the public so much, right? So and so this usually comes with one of two flavors. One flavor is, well, they lied to us about global warming, so why should we trust them now? So it's basically using one conspiracy theory to justify other conspiracy theories.

C: Yeah, what about the masks during COVID?

S: Yeah, or the big one is they lied to us about the Flat Earth. So that's the point. I think that's like the point of the Flat Earth is to say, well, if we could prove this, then we could deny everything that they say because clearly they're lying to us about everything. That's actually the point of their conspiracy theories, right? Is to justify all other conspiracy theories, essentially, Yeah. It's just anti elitism, anti expert, anti institutionalism. Like just we could ignore everything, shoot from the hip, do our own research because they lied to us. But sometimes even if you don't believe in a specific lie or denialism, like, you know, global warming denial or, you know, flat eartherism or, you know, again, COVID, like everything about COVID, you know, they said, well, they lied to us about COVID or about masks or ivermectin or whatever. Again, whatever crap you believe in, it's just the sort of generic wells, you know, scientists can't be trusted because they're, you know, they're always coming out with these announcements that are not true, like cold fusion and string theory or whatever say OK, But you know, they they kind of they're they're looking at fringe cases or like cases don't really illustrate A systemic problem with within science. Some of these are one offs or they were an example of the media getting way ahead of a story or reporting preliminary evidence. So yeah, there's a media, there's definitely a media problem. And as we have discussed many times, sometimes scientists play into that or journals play into that, absolutely. But.

C: It's well and they they often blame when we have like incomplete, you know, when we update our information instead of being like, look, they updated their they were wrong before and now they're flip flopping.

S: That's a. Part of this, like 90% of it or whatever, is just the normal process of science. There's preliminary findings, they get people try to replicate them, they don't replicate, then they get discarded, right? That's what the way it's supposed to work. But it if the media is breathlessly sort of reporting every preliminary finding, it seems like the scientists are lying to us or they're taking away all of these big claims. It's like, no, this is just the normal grinding of the meat of science and you're just not being given the the correct perspective on it. You know, You know what I mean? You're misinterpreting the mainstream media for scientific activity. These are not the same thing. But it just generally, you know, it generates this sense of, well, we can't trust anything we read about from scientists in the media, so we can just believe whatever we want. And of course, you know, even if you correctly identify a problem like, oh, whatever, this, the researchers are too, too cozy with industry or whatever, or sometimes they fall for feds or they're closed minded. You know, that doesn't mean that your wacky idea is true, right? You could be correct about a problem existing without being correct about your proposed solution, which the proposed solution is anything goes. My crank ideas must be true. I have no burden of proof. They have an impossible burden of proof. They have to be 100% correct all the time out of the gate and I just need to have a wacky idea with the flimsiest of, you know, of correlations or whatever and don't have to prove a thing. Like the double standard is absolutely overwhelming. But that's what exists. That's the that is this basically the what is common on social media, you know?

C: What, how much like when I think about conspiracy theories and, and you know, what kinds of conspiracy theories are peddled, I often think that there's, you know, there's a million ways to slice and dice, right? You could lump and split whatever. But there are the people who are, who are promoting certain types of conspiracies in an effort to so disillusionment, you know, in an effort to, let's say, interfere with like elections or stability of a government. They're the people who, who are promoting conspiracy theories because they want to make money off of their version of a thing. Stop paying these people. I want to take your money. I worry with the like physics conspiracy theories that I they read to me the most like there's a higher percentage of people with like severe mental illness or propagating them. Have you ever noticed that too?

S: Yeah, totally. Like the the Time Cube guy had schizophrenia almost.

C: Yeah, like they often feel like this frenetic, like somebody was up all night on acid solving all the problems of the universe.

S: Like, yeah, I think that attracts that, yeah.

C: Yeah, yeah. Because it's like if I can just make everything fit, there's different.

S: Flavors, totally, yeah. And the medical ones are snake oil salesman, you know, I mean, they're not necessary.

C: They just want to sell their vitamins, right?

S: Yeah, exactly, exactly. They want to just sell their snake oil.

E: I think our previous experience having to do with physics and things probably are the perpetual motion machine. Peddlers. Oh yeah, free energy believers.

B: Remember that was in the news every week back in the day. It's in the 90s Never. It never goes fully away, but man, it's.

C: Because that's one of those like it's too good to be true. This could solve all our problems.

E: And they're trying to sell a machine or finance their machine at the same time they have a ulterior. Effective.

C: And it makes sense why people buy into the things that are the solutions to all of their problems. I mean, that's what everybody wants.

E: Oh, sure, Yeah, who doesn't want that?

C: Which is why I think, again, these, like, these physics ones are kind of weird. They're in their own camp because a yeah, you have a lot of these, like I've made sense out of a nonsensical world. But then like the, the people on the receiving end don't understand them either, you know? Yeah.

E: They're not necessarily tied to a product they're trying to hawk or a, you know, something like that. They're just looking for intellectual credibility where you know, seeking, seeking it in, in alternative ways.

C: I think so because they feel so esoteric to the everyday sort of citizen. They're not like, oh, I want, I want to buy that manifesto, right, Right. Understand your manifesto.

E: My Manifesto by Doctor Crank, available now on Amazon.

Cancer Misinformation (17:25)

S: Well, Carrie, you're going to talk about something very similar. Tell us about cancer misinformation. What? What's going on with that?

C: I was about to segue, and then I was like, that's not my job. Yeah, yeah. I mean this this aligns perfectly with an article that I came across recently in The Conversation written by a psychologist named Andy Levy. And it has a British lens, right? This is a British psychologist who is writing from that perspective. And so I found it interesting because he highlights some sort of misinformation, some pseudoscience on British TV. So the article is called How Cancer Misinformation Exploits the Way We Think. And he spends some time talking about a specific incidence on television, followed up with, you know, some of the things we often talk about on the show, like what is misinformation? Why does it happen? How does it happen? And then how what are some of the ways that we can sort of protect ourselves against it? But this one specifically, he's focusing on cancer misinformation. I think that's why it piqued my interest. That's the world that I'm in. And I cannot tell you as somebody who works with people who have cancer, I work with them from a psychology perspective. It is rampant. I've had patients who everywhere from, you know, a small kind of off the cuff statement about something that's patently untrue to patients who seek out just like rank pseudoscience and, you know, harmful non treatments and everything in between. So apparently our our listeners who wow, I just fully apparently.

S: Apparently.

C: Yeah, I heard it. So our listeners in the UK may recognize the name Danielle Lloyd. It was new to me, but she's a a TV personality and actress, I guess. She was a former Miss Great Britain winner. She recently announced earlier this year that she was diagnosed with Melanoma and she had to have a mole that was on her collarbone removed. And throughout her process of then getting treatment, she had to have a second biopsy and, and, and second treatment. And so there's, you know, it's the news is reporting it. And she's sort of taken to social media to do the opposite of what we're often talking about on the show. This was a breath of fresh air for me. She's not going online and spreading misinformation. She's going online and debunking misinformation. And cautioning her followers and her listeners to not listen to these social media influencers who don't have credentials and don't know what they're talking about. She had a big wake up call when she, I guess she was filming or she was at a press junket. It's not really clear why she was there, but she was travelling and she was talking to a reporter from Vogue and she was like, oh, sunscreen is really toxic. There's all sorts of harmful chemicals in it. And the reporter from Vogue said, absolutely not. It's dangerous that you're saying that out loud.

B: Oh, I love that.

C: Yeah. Like that is not.

B: That more people.

C: Like sunscreen is one of the best preventive measures we have to prevent skin cancer and there is good evidence to support that. And there may be some, you know, products on the market that are, that are, I guess, better or worse than others. But by and large, wearing sunscreen is safe and it could save your life. And so she started to really dig into a lot of the messages that she had been fed on social media and recognized how many people out there who don't have any credentials, who have no idea what they're talking about, are spreading deeply dangerous misinformation. And so she's now become something of kind of a role model to other individuals, teaching people about checking, you know, your body for moles, looking for signs that they're changing color, that they're changing shape, you know, going to your dermatologist, wearing sunscreen and seeking out evidence based intervention when there's a risk of of cancer. That's kind of one side of the story. The other side of the story in this article really does focus on why cancer misinformation seems to be so not just so prevalent, but so I don't know, like why people are so credulous toward cancer misinformation. And it does seem like it hits on a few things that are that we're especially vulnerable or sensitive to. I mean, obviously, fear is a big one, right? People are afraid of cancer. They're afraid of sickness, they're afraid of pain, they're afraid of death. And cancer sort of for a lot of people, embodies a lot of these taboo fears. I have had patients who were diagnosed who couldn't use the word right, and we would refrain from the word cancer in our sessions because it was such a triggering and taboo word for them. Cancer carries a lot of weight for a lot of people, but what are two of the things or what are some of the things, I guess they should ask you guys that you can think of when you think of the types of cancer misinformation that you've seen online, Like what are some of the the ways that cancer misinformation is spread or like the tactics that the the pseudoscientists used.

S: So a common one is to scare people away from standard treatment, right? This is the burn poison and and cut, you know, is how they characterize it. And so like, don't take chemotherapy, don't get surgery, right? Don't do radiation therapy.

C: Are things like chemotherapy actually is, is talk or like I shouldn't say it's toxic because it is in a lot of ways, but chemotherapy actually causes cancer to spread or chemotherapy will kill you faster. Chemotherapy is worse than the disease. You'll hear these kinds of claims a lot and and then what happens when somebody hears that and they're afraid and they want to make the best decision, they put off treatment.

S: And they die.

C: And they die. Yeah. Either they never get conventional treatment or they wait so long that it's no longer as effective. Because that's the that's the one of the toughest things about cancer. The more and faster it spreads, the harder it is to treat, right? The earlier you can catch it before it has spread, the easier it is to treat. Yes, this is a very common tactic that they use. And one of the ways that they do it, and this is something that the the writer of this article really points out, is that there's a negativity bias, a principle that we we talk about in psychology where the bad is stronger than the good. And that could partially explain why a lot of this type of pseudoscience is so triggering for people and works better than hopeful or fact based messages because people are going to react more strongly to this is going to like you said, you know, the burn the cut, right? This is going to disfigure you. This could make you disabled. This could, you know, the cancer spreading and eating away at you more than you know, you could get 15 healthy months if you start on this treatment now. Or by and large, people who take this treatment, you know, have this many better days in front of them when when they're sort of hopeful or fact based, they don't seem to stick as much because of that negativity bias. Another thing that they talk about quite a lot is the idea of highlighting losses as opposed to potential gain. So they're kind of related that when we see cancer messages that talk about, you know, losing health, losing comfort, losing actual years of life, it does feel a lot more urgent and a lot more motivating than when we when we flip the script and we talk about improved survival or better quality of life. And so I think knowing that there is a bias toward loss, there is a bias toward sort of bad, stronger than good or negativity can help those who are messaging position their messages in a way that are more effective. Because we see this so often, right, That the misinformation, the pseudoscience, their messages are unfair that they hit below the belt. They don't play by the rules. And and unfortunately, they're often more effective to people who are vulnerable and who are afraid. And so we could be thinking about how to improve our messaging so that it feels just as urgent or just as necessary. And also the the writer of the article talks at length about pre bunking. I think we've all talked about pre bunking before, so we don't have to get into it too deeply. But the idea of pre bunking is just that when you sort of are aware of common techniques that pseudo scientists, grifters, you know, snake oil salesman use, when you you're aware of them in advance, you can spot them before they get to you, before they take hold, and you're more likely to be able to resist those messages. And so a lot of things is like understanding scare tactics, understanding mechanisms of deception, like exaggerated risks, like fear mongering, like promises of cures or miraculous, you know, treatments that don't seem to carry any weight. But being aware of that before they hit you, you're less likely to fall victim to them. It's much harder to undo than it is to prevent. And, you know, they end their article, which I think is an important one. We've probably used this quote within the first. You know, I wasn't here at the very beginning of the SGU, but I can imagine that maybe, Evan, you know, the Carl Sagan quote, extraordinary claims require extraordinary evidence. I mean, we use that quote all the time. Was that ever one of the quotes on at the end of the SGU?

E: Oh gosh, probably in episode 2.

C: Right. That's what I was thinking. It must have been really early on because it's such a mantra, but it is such a an important quote and I think we have to go back to it over and over and over. When we hear a claim that sounds too good to be true there, there better be a whole lot of evidence backing it up because it likely is too good to be true.

S: But often the evidence is I heard it from someone on the internets.

C: Exactly the SO.

S: Of the evidence.

C: So much cancer misinformation, so much cancer pseudoscience falls into that bucket of too good to be true. And we have to remember that. But good on Danielle Lloyd for for sort of changing that narrative. And it's it's always nice when when we can talk about how a public figure, a celebrity is using social media for good, right?

E: Rare.

S: Yeah, The other thing I often point out too is that when you're disconnected from reality, right, you don't have a process which constrains your claims and your message and your narrative, because you have to defend it with evidence and logic and review, you know, of some sort. And then you'd get to craft your message purely for psychological appeal.

C: Of course.

S: So that's these things and these things evolve. The ones that have it's adaptive radiation, The ones that have the best psychological appeal, those are keepers, man. You can just get variations on those themes, and then over time they get fine-tuned to be pushing the psychological buttons of people you know.

C: Absolutely. And I mean that's why I sort of used the analogy without making it so overt of like hitting below the belt or not playing by the rules like that really is what is happening here. There are no constraints. And so when there's but when there's a fight and there are rules to how you fight and then somebody just comes in with a weapon, it's very easy for them to win the fight. And that that's what we see over and over and over. And I think that is the eternal problem is how do we continue to, I mean, I hate that I'm using like a violent analogy here, but to whether it's fight back or be on the offensive without stooping to the level of also using weapons, right? How are we able to make sure that the the narrative that is an evidence based and and scientific narrative is is factual, but it's also persuasive and and that it can even find a voice within the cacophony that is pseudoscience?

S: Yeah, it's tough when one side's ethically constrained and the other one isn't.

C: Yep.

S: And that's the the catch 22 of trolls, right, Is they they poison the dialogue because of they're not acting in good faith. And there's no real solution to that. There's just there are things you can do, but it's all a trade off. There's no real solution to it.

C: Right. It's flagging misinformation. It's it's education that allows for that type of pre bunking. And it's, you know, I think those of us in the community who are in those sort of authoritative positions, physicians, scientists, psychologists, you know, individuals who have that type of education and training continuing to maintain really, really meaningful relationships with their patients, with their community members and continuing to beat that trustworthy voice. Because when it comes down to it, yes, people are listening to all the bullshit that's out there on social media. But when they get sick and they go to the doctor, polls continue to show us that they trust what their doctors tell them. Yeah, we have to keep, you know, fostering those relationships.

S: All right, Bob, give us an update on thermal nuclear propulsion.

Improved Nuclear Thermal Propulsion (31:20)

S: I know you love this.

J: I thought you gonna say thermonuclear war. I'm like what?

C: You love it, Bob. You love it, I.

B: Don't love that. So yes, it's been, I calculated it's been 34 episodes since I've talked about nuclear. Rockets. In some ways, we are way overdue. Yes, try to keep it to 20, you know. So we hit 34 this time we have this time we have an advance for nuclear thermal rockets that use liquid or molten uranium to potentially it seems double the the efficiency of nuclear rockets using an ingenious centrifuge design. This is from researchers at Ohio State University collaborating with University of Alabama in Huntsville. They've published in Acta Astronautica a paper called Addressing Challenges to Engineering Feasibility of the Centrifugal Nuclear thermal Rocket. I never heard of this type of rocket before CNTR. So why do we even want rockets that are nuclear? Well, if you haven't listened to me talk about this and the 40 or 50 times I have chemical rockets, they're just annoying. You know, they've served us quite well. They've done an amazing job, and they will probably help us get off the planet for a really long time. But in space, they're just, they've hit chemical rockets have hit an efficiency wall, a physics wall of efficiency. And, and we've got the technology, you know, we don't have to use chemical rockets in space anymore. Now, this ceiling that chemical rockets have have been hitting stems from the fact that the energy released from chemical reactions, it's it's just paltry and inefficient compared to the energy from nuclear reactions. So that's why this is the preferred rocket if you really want to, you know, move cargo and get places fast in space. And you know what?

S: What fuel? What chemical rocket fuel has the highest specific impulse? Which means, you know, basically change in velocity for the mass of fuel.

B: Well, it's got to be. It's got to be hydrogen. It's the. Lightest, it's hydrogen. That's it. That's as best you can do, yes.

S: Just burning hydrogen with oxygen. That's as good as chemical rockets are going to get, basically, yeah.

B: So nuclear thermal rockets use fission instead of chemical energy to heat the rocket propellant and shoot it out of the ship to fly through space. We've had and we've tested these nuclear thermal rockets since the 60s and we, we're, we're finally seeing a resurgence now in this technology for various reasons and which I don't really need to go into right here, but we are. But we, we are having this renaissance which is making me very happy. Now, these types of rockets are about twice as efficient as chemical rockets, meaning that you can transport more cargo with the same amount of propellant or the same cargo with less propellant. So huge advantages that would save a lot and lot of money, millions to billions of dollars. So this news item is essentially a new idea how to make these nuclear thermal rockets even more efficient, perhaps twice as efficient, which would make them about four times as efficient as chemical rockets. So one of the best ways to do this is just let's do a comparison because it took me a bit to figure out why is this better? Well, how is this centrifuge even working? And why is it better than a nuclear than than just a run-of-the-mill nuclear thermal rocket? So let's look at a solid core nuclear thermal rocket. So we start with a uranium composite. So this uranium composite is filled with thousands of little tunnels. Now imagine that the uranium is undergoing fission while hydrogen gas is flowing through those tunnels. So you could imagine what's going to happen, right? All that heat from the fission is conducted through the metal to the tunnels, which heats the gas inside tremendously. And this super heated propellant is then directed to the ship's nozzles to essentially push the ship through space, right? Simple, simple design. At least, you know, at that high level complex to pull off, but it's that's essentially how it works. So, but now we've got this CNTR, the centrifugal nuclear thermal rocket. So what is this guy doing in this proposal? The researchers primarily primarily imagine a beefy centrifuge. You're going to need a very strong centrifuge for this, obviously. So now remember that carnival ride, guys, Steve, Jay, you know this when you were, when you're, you know, when you or your parents, which I have to say now we're kids. The Gravitron, that's that thing you would get in it, it would spin you around and pin you against the wall with like say what like 2 1/2 to 3G's, which is, which is 3 times the force of gravity that you feel right now. So we were pinned against that wall really hard. Well, this new nuclear centrifuge would spin at literally thousands of G's O Instead of spinning you into a thin paste against the wall, which is what that would do, it spins a liquid or molten uranium around and around. And of course, that uranium is also undergoing fission.

S: Bob, let me ask you a question. So your description of how this works is hydrogen, the propellant hydrogen.

B: Yes, hydrogen is the propellant and uranium is the fuel.

S: Because hydrogen, while it's a great fuel, it's not that great a propellant. So I'm wondering why they use that. Because it's light, right? Which makes it a great fuel, but means you don't get that much bang for the buck and as a propellant anyway, just.

B: Well, yeah, but actually that that's actually part of the benefits of this this design. This design can run on many different fuels, including methane and other other things that we get from asteroids and the moon. So one of the huge benefits of this technology is that it could be self-sustaining. You could go out into space and then just pick up more fuel and in an asteroid.

S: Fuel or propellant?

B: Propellant, propellant, I mean propellant because it's so adaptable, it can use so many different types of propellant that that I mean, I was just focusing on what is what is the process. But they do mention, they do mention hydrogen a lot. OK, OK, so let me just finish up here. So we've got, so you got this huge mega centrifuge, it's spinning this, this thin film of kind of a liquefied uranium, you know, in the centrifuge. And what happens is that the gaseous propellant then bubbles through the fusing uranium and that heat is transferred directly to it through direct contact. And that's the key there. That's the key difference there. There's something like millions or billions of these little gas bubbles of propellant percolating through that fusing uranium and those bubbles, you know, all those billions of bubbles have an incredibly large surface area, far larger than those tunnels that I had mentioned with the other technology. And that's what makes the heating so much more efficient and than conventional nuclear thermal rockets. That's one of the keys right there. So I tried to come up with some other analogies for how this works. So the, the, the typical, the, the conventional nuclear thermal rocket would be like blowing air through a red hot radiator, right? So you, you're blowing your air through the red hot radiator and that and the, the air that's coming out at the other end is going to be, it's going to be hotter, obviously. But with the CNTR, it's like bubbling that air through molten metal. So what's coming out at the other end, it's just going to be much hotter. And that's that's what we're seeing with this CNTR technology. So the end result is the propellant reaches much higher temperatures, which creates higher exhaust speeds, meaning less propellant is needed for the same job. But one of the things and Steve, you alluded to this, you mentioned it, one of the key things here to compare these technologies is to look at specific impulse. So specific impulse, it's essentially the miles per gallon or should I say kilometers per liter for rockets. That's what's 1. You know, one good way to look at it. Higher ISP means you get more push per unit of propellant. That's all it really is saying here. So now, but you got to remember ISP is not equivalent to thrust. It's not the same thing because you could have crazy high ISP with tiny thrust like ion engines, or you could have a lot of thrust with modest ISP, which is chemical rockets. And that's why chemical rockets are great for getting us off the the surface of the planet. The thrust, baby. The thrust is is huge but that but you can't thrust like that for very long so it's ISP is is crap.

J: So Bob, you can't thrust lung.

B: Oh, boy, somebody went for it. All right, Jake, Congratulations, bro.

E: Bob thrust lung.

B: The ISP. So the ISP for chemical rockets is 450, For solid core nuclear thermal rockets, it's 900, which is, I mean, that's just a huge improvement over chemical rockets. It's, it's so beneficial. Now CNTR has a potential ISP of 1500 to perhaps at perhaps that the best it might be able to achieve is 1800 seconds of ISP. And that's one hell of an incremental improvement. That's what I say 4 times, that could be 4 times better than than chemical. So it's so, it's so, it's so efficient, it's great. So what might this mean? OK. What's the bottom line in terms of what we see on the ground, if you will, or in space, I guess would be more accurate if you, if we wanted to using this technology, we could add extra propellant and extra propellant on top of that to do really cool things and still have room for cargo. Now that's something that you can't do with chemical rockets. You can add more and more, you know, chemical components for your for your propulsion, more propellant, but there's a limit. There's actually a limit you can't go beyond. And you will have, at the end of the day, what's going to happen, Steve? You're not going to have any room for cargo if you add, you just keep adding more and more propellant. But you're not in that. In that situation necessarily with these, with these other nuclear options. So that means that you could add extra propellant for the CNTR rocket and that means you could push the ship harder. You can burn the engines longer. You could you could brake harder. You can get to your destination a lot faster and then just hit the brakes really hard, turn and burn or whatever. Meaning that you could you could potentially bring a trip to Mars down to two to three months, whereas for a chemical rockets, you would need probably something like 8 or 9 months. So you could you can, if you do this, get somewhere faster. But this this technology really shines though for just the amount of cargo that you can carry. So for example, you could double the cargo for Mars with the same basically the same ship mass. You could just double your cargo, which is which is a huge benefit doubling the cargo. That's that's something amazing right there. You could also do the you could do a direct to Jupiter. You know the pinball in space where you got to do gravity assist for this planet. Then you got to go to this planet, do another gravity assist. Very takes a long time. Right, right from this technology you can go essentially, you know, pretty much direct to Jupiter without years of gravity assist. You could also, how about this, you could use this technology to add, you could take a, you could trade away some of your spare propellant that you no longer need for a given cargo. And then you could just add extra radiation shielding for space to make people extra safe, right, right. Well, that nasty radiation out there. How about this one? You could do faster intercepts for if there's a surprise comet or asteroid coming to the Earth. You can do a much faster intercept with a this, this CNTR centrifugal nuclear thermal rocket compared to a chemical rocket. And then finally, you could also do bigger science, bigger and better science. You could have, you could loft heavier instruments into space. You can have more power, you can more data. It's just just you could just do bigger and better science when you have this much power behind you. All right, so before I finish, of course we got to go over some of the potential issues. CNTR is quite complex. It's definitely, it's more complex than NTR nuclear thermal rocketry. So there's definitely some engineering challenges ahead. And and they just briefly mentioned things like, you know, ensuring that the new design is stable, that the startup and even the shutdown is actually, you know, stable and won't blow up on you. And also they also need to make sure that they don't lose a lot of uranium fuel during the operation. That's another classic problem that they could have with this. But the researchers hope that they may have a design ready for real world tests within five years. So in five years we might have something substantial ready to go with this in terms of either either having the design pinned down South, they could build it or have something that's already partially built in five years. I'm not sure. I'm not sure you know how fast they can they can get this stuff ready. But it looks very promising. And anything that makes nuclear rockets better and more efficient is great to me because that's that is clearly, I think we, Steve, you would agree. We could say with confidence that that nuclear rockets are our future. It could be literally for centuries, for centuries. We could continue tweaking this fitting into Fusion.

S: Until we get fusion.

B: Fusion and then fusion and then and then after that it would be. It may be directed energy, but clearly we could tweak this, just this general idea of nuclear rockets, fission, fusion for for literally for centuries. I mean, this is, this is the way people will, people won't even remember chemical rockets eventually.

S: Well, I still think we're going to need them to get off planets for. A yeah, that's true.

B: That's so annoying. Isn't that frustrating? You have all this amazing efficiency and power behind you, but you can't really there, You can't really just launch from the planet. We're using a nuclear rocket. Not easily. I've heard I've come across a design or two that could potentially do it that they're not sure if a nuclear rocket could actually launch people in cargo off of the Earth 1 design that might work would actually spew the entire continent with radiation. So that open cycle and engine is not probably going to be very useful if it's going to irradiate most of the planet. But if they come up with some close cycle, that would be great. I don't know, but yeah, chemical rockets will be with us for a while on the Earth, but in space it's going to be all nuclear.

S: Yep.

Oldest Mummies (44:35)

S: All right. Thanks, Bob. Jay, tell us about these old mummies.

J: Yeah, I mean, when I first looked at this, the first thing I thought of was that.

S: Mummy.

J: Bob would want to make one of these for his heart because you're so crazy.

E: Looking carefully. Might have.

J: You know, so historically, you know, most people, they're like, you know, when mummies come from Egypt, right? That's a, that's like a common piece of knowledge there or South America, But that's not the whole story. And there's a lot of complexity to the to the history of I was gonna say zombies, Bob, but I of mummies. So there was a peanut study and verified that the earliest known mummification happened somewhere in Southeast Asia and it was not in the regions that most people are think of when they think of mummies. So this discovery now it's rewriting the timeline of human Mortuary practices, which is interesting, right? Because we don't, you know, when you think about this type of thing like people, people did this to mummies or did this to people turn them into mummies for religious reasons, for communal reasons. You know, it's very important thing. It wasn't just like, hey, we're going to just do this because we like it. You know, it's, it's more revolved around, you know, there's a lot of culture involved with it. So there's complexity to how they do it. There's different ways that they do it this way, though, I've never heard of. And it's really, really cool. This research team was led by Hung Deng and Matsumura, and they examined human remains from 95 different archaeological sites. And this was across southern China, Vietnam and Indonesia. Eleven of these sites were analyzed in extreme detail. And what they found was that it it this wasn't just burial. There were many bodies that they found that were bound tightly in like this compact compressed thing. It's like it it looks almost like an impossible contorted pose with the arms like crossed under the thighs and the knees were pulled up all the way super tight up into the upper chest.

B: Yeah, that's weird.

J: And these positions were were, you know, they found them to be really extreme. And the people that who prepared the corpses also did something where they removed soft tissue before, you know, in the, in the start of this process so they can make these bodies even more compact and tight looking. So what they confirmed was that the bodies were deliberately dried and they were preserved before internment. So there's a few things that they had to do to get the full picture. The, the first thing they did was with the, they looked at the bones and there were some really important evidence that were found. Look at the bones. So many of the bones showed a blackening or charring on very, you know, specific places on the body, foreheads, elbows, knees, pelvises. Now these areas have the thinnest layers of muscle and skin. And the pattern wasn't random. What they found was so the pattern didn't match a a cremation pattern that they find it. It suggests that there was some type of controlled deliberate process that they were using. And to confirm it, the researchers used 2 advanced techniques. You know X-ray diffraction or a Fourier transform infrared spectroscopy, right? Almost said it right. These methods detect microscopic changes inside bones and reveal whether they were exposed to heat or smoke. And I found that interesting that they, they use these devices specifically to track heat in smoke. You know, I guess it was the charring that led them to that. So even even when there was no visible signs of burning left in what, what they found. And anyway, the results were really cool. So they, they, they more than 80% of the samples showed a clear sign of low temperature heat exposure. And this confirmed that the bodies were treated over smoldering fires for an extended period of time before they were buried. So think about that. They were like heat treating and smoking the corpses to preserve them, right? And that's like.

C: When was this?

B: Maybe it's a big cannibal BBQ scenario.

C: No, I mean these were intentionally preserved, absolutely. So when sorry what? What year are they from? When are? How old are they?

J: 14,000 years ago.

C: Wow.

J: Yeah, it's older than any other. Any other mummification?

B: I mean, what? What's the goal, Jay? What's the goal? I mean, what wasn't mummification used to prepare kings for like the afterlife, right? So why?

J: Would you that's one culture, But, you know, this was more of I don't think they have a complete picture, but the their understanding is that it would be for like, you know, leaders or a religious leader or someone that was really valuable to the community and they would preserve them. And then, you know, use them for for rituals and things like that. You know, just have them there as, you know, as something else, you know, it keeps them connected to their dead. It's a way to honor their dead and also have them be a part of their rituals and everything. So they also did radiocarbon and they calibrated the readings. And what this means is they, they corrected them to match true calendar years using data that they found from tree rings and other sources, which is pretty cool. So that 14,000 year timeline is accurate. So again, like, you know, when we say they they go back 14,000 years, that's significantly farther in the past than, you know, other mummies that we know from around the world like Egypt and Chile, you know, they've embalmed dead examples in Egypt. So this means that the hunter gatherers in tropical Asia were smoking their dead long before all the other zombies that I'm sorry, all the other mummies, vampires, werewolves. So the process itself they found is actually similar to practices that are still found in the Highlands of New Guinea, like actively happening today. So some communities out there, what they do is they have, like I said, are veered leader. They would smoke them over the fires for months. You know, they'd bind the limbs in a very similar way in these compact positions. And this was all to preserve the bodies. I think it's pretty interesting, you know, that there's cultures that are still doing that today. They found a lot of these bodies in buried caves or in shell middens. You ever guys hear of a shell midden? Does that happen? It's like a pile that they collect over time of, of shells and different things of bones and all that stuff. And what happens is if they bury it in this collection of shells and and bones and whatnot, it preserves it much better than if it were buried in dirt.

E: You got that, Bob. That's your tip for the day.

J: Yeah, Bob, you got to make one of those at your home.

E: Thank you. Well.

C: And what's interesting is they probably didn't know that it's, you know, it's a it's a survivor bias. Obviously they didn't survive, but the reason that we know they're preserved better is because they preserved better.

J: Yeah, when you see one, I I highly recommend you go take a look at a picture of this. They have a really good picture of something that is looked to be completely intact. And it is fascinating. I mean, it is really cool. It's it's kind of scary too, but it's really, you know, from a history perspective, it's it's really incredible. You should take a look. So they also, you know, with this new interpretation of what was going on with these, with these corpses, you know what they, they have to rethink a lot of the fines that other archaeologists have made when, when they find jumbled bones, right? So they'll find skulls tucked inside of rib cages or limbs bundled together. And what they assumed historically was that this was like ritual dismemberment. But this evidence now points to the fact that, you know, after months or years of smoking and exposure and all that to the corpses, you know, some of these mummies did naturally decay and break apart, which I'm sure a lot of them do that. So when it came time to bury them, the remains weren't, weren't in regular human form like they would have been if they buried them in from death immediately, right? So they just grabbed all the bones and you know, that's why we find a lot of burials in these weird configurations with like the head inside the ribs and all that stuff. Because it's more like, you know, they're just picking them up and then burying them without laying them down in a in a fashion that you would think is is a human body form, right?

C: It just makes you think how much of modern and even historical even more so probably historical. Physical anthropology is so culture bound like that. All of the assumptions that were made based on minimal evidence, we're so shaped by like our modern death practices or our modern ideas about gender roles or about families or about whether a culture would have been violent or would have been peaceful. I mean, it's fascinating to hear story after story coming out that like, you know, women hunter gatherers were by and large, actually hunting and, you know, these things that historically they thought were like ritualistic dismemberments and like these violent practices might have actually been a way to honor, you know, religious leaders or or dead that they wanted to honor. It's fascinating.

J: Yeah. And also, you know, when you look back on these different burial practices and everything, like you were saying, culturally the norm today, I'm sure it there's a lot of variation here. But in my country, you know, the norm is you put someone in a coffin and you put them six feet down and you bury them. But you know, to them, culturally, it was more meaningful to have the representation of that person physically there.

C: Of course. And we think of the norm today being some sort of amalgamation of thousands of you. It's not. It's really new. Our death practices are really, really new, and they're probably more different than these historical death practices than they are similar, but we're constantly comparing everything to what we think is normal.

S: Right. Yeah, Yeah. It's hard to get out of your own lens. You know, you have that. You have. We have a narrative, and that's our first thought when interpreting things like that. All right. Thanks, Jay. Evan. Yeah, not the screw worms.

Not the Screwworms (54:37)

E: The screw worms. Yes, I did an update. I, I gave a report on the screw worm a couple of months ago and there is an update this week. But I'll go back a little bit and remind you of what we talked about. What is a screw worm? A screw A screw worm is the larval or maggot stage of a parasitic fly known for infesting and feeding on the living tissue of warm blooded animals, including livestock, pets, and yes, we humans. Human deaths from screw worms are rare. The condition is known as myoisis and it can be fatal if it's not promptly diagnosed and treated. And again, the key here is that these larva must eat living flesh to survive, whereas ordinary maggots they feed on the dead tissue. The update is that last week the Center for Disease Control here in the United States confirmed a fear that we've had. We do have the first human case of New World Screw screw worm in the United States. The patient, who was a Maryland, is a Maryland resident. They had recently traveled to El Salvador and that's where screw worm infestations are rampant in both livestock and wildlife. The doctors spotted the larvae burring into this person's living flesh and they immediately sent samples to the CDC for confirmation. This case is considered the first travel associated human case from an outbreak affected country since at least the early 2000s, so almost 25 years. But here's the good news. The infection was treated quickly and successfully and the patient has fully recovered. And even better, there's no evidence that it had spread with no evidence of that. So we don't have an outbreak. But definitely, this is a bit alarming and people are on alert now, you know, veterinarians and other health officials about this particular case we had. There was a time where we did eradicate this problem in the mid 20th century because the US had faced constant livestock losses from these infestations of the screw worm. But then they used something called the sterile insect technique, in which they bred millions of screw worm flies. They sterilized them with radiation and released them by airplane over huge areas and those sterile males mated with the wild females. They produced no offspring and collapsed the population. They said by 1966 it was wiped out. It was done. The screw worm was done in the United States and it remained that way until 2023. But then they started to there were there was evidence it was coming back.

C: So in the 60s they did this massive sort of public health campaign where they sterilized worms. I mean that, that's amazing to me.

E: Yeah, it. Yeah, it.

C: I feel like we we were talking about genetically engineering mosquitoes, mosquitoes like that.

E: Yeah, where we've talked about it.

C: Before and from an ethics perspective in a modern, there's like so much, you know, argument around it and should it be done and what would happen if if it got out there and blah, blah, blah. That's, I don't, I don't know why, but that's like really stunning to me that that would have happened in the 60s.

E: Yeah, Yeah, right. And yeah, right. It it, it is a bit amazing to think about in that in that particular time period. But that's how that's how bad this threat was. I mean, it was like an all hands on deck. We have to get this under control. We're going to lose our livestock and probably lose a lot of people.

C: Yeah, and how cool that it worked.

E: That it worked Yep. And they're and they're doing it again. This is also a current intervention that they're that they're doing as well to be particularly safe because while they were able to during much of the latter half of the 20th century keep it contained Panama and South and South America, they were able to get it mostly out of Central America. It has it has come back and in 2023 again, right on the border with us is Mexico and Mexico red reported cases in 2023. So we knew this has been knocking at our doorstep for the last couple of years and we've been trying to, you know, get this back, you know, at least back under control as best as we can here, here in the United States on this particular problem. They're setting up survey. They have set surveillance traps across several states, a lot of them in the East but also in the South. And what they do is they detect signs of wild screwworm flies. And so far the traps, anything that's trapped, they've not detected any screw worms yet. So that's good. But the USDA is also expanding that sterilization program that we talked about. And the FDA has issued emergency authorization so veterinarians can rapidly access treatments for animals if the outbreak occurs in among the among livestock and other things. So you have to, you have to pregame this thing that, that, that's the key. And that's kind of the maybe the main take away here. They say the return of screwworm is a reminder of how fragile eradication victories are. And even though things might have been gone for decades, you know, in this particular case, a parasite kept at Bay, you know, in good using good science, vigilance and cooperation mostly. You know, we could see this. We could see this come back. We could see other things come back. This definitely, definitely parallels what's happening with vaccinations. No doubt, no doubt about it. It's it's the same thing. So there's a lot of different ways that things like this manifest. And we don't realize how how fragile our protections really are until it's too late, until we've done a lot of dumb things and bad things in order to make these things relevant again in our in our day-to-day lives.

J: All right. Thanks, Evan.

Who's That Noisy? + Announcements (1:00:23)

J: Yep, Jay, who's that noisy time? All right guys, last week I played this noisy. Any guesses?

E: I know it's not right but it has a helicopter sounding quality to it.

J: Yes it does.

E: But I doubt it's a helicopter of any kind.

J: OK, I got a new listener here named John C Edwards and he said long time, first time. Sounds like the interference on ham radio from the Woodpecker, the Russian OTH ultra long range radar. If it's not that, I'm suspecting it's some kind of similar radio phenomenon. Lots of people guess this. John happened to be the first one. It's a very good guess, but that is not correct. Visto Tutti said the noisy sounds like those big lawn sprinklers where the water jet powers its circular spraying around the green. You know, I'm talking about like those ones that spin around a circle.

E: Oh, sure.

J: And it does have that, that, that vibe. But this is not it. He is not correct. This is from a listener named Scott Williams. He said, Hey, Jay, first time guesser from San Antonio. My guess is a pulsar as picked up by a radio telescope. Big fan of the show. Thanks. Many, many people guess this as well. And it, you know, it sounds like that, but it doesn't happen to be that. I have one last guest here, Caleb Chrome or Chrome. And he said this sounds like the mechanism that moves film when projecting. It's a pretty slow rate. Maybe an old Super 8 or older. Right. So he's talking about a projector that the older real projector.

E: Yeah. Real.

J: The real projector, which is not that many of those out there anymore.

E: Science, Science Biology Films and 1974 and.

J: Yeah, I really, really liked this guess. And as a fun, interesting side note, did you know that the part of the lightsaber sound was taken from a film projector?

E: No.

J: Yeah, it's one of the sounds that that makes up the aggregate sound.

E: Cool.

J: So no winner this week, guys, There's no winner. So I'm gonna tell you what this is and then I'll I'll play it for you again. So this is called the photo acoustic effect. So this effect happens where sound waves are generated from light. And, you know, think about that, like sound waves are actually, you know, being generated from light exposure. So it happens when a material absorbs A pulsed or modulated beam of light, like a laser, right? So let step by step, there's a short burst of light that hits the material and then if the material absorbs the light, it's molecules gain energy and heat up very, very slightly and very quickly. And what happens is there's thermal expansion and the thermal expansion happens almost instantly. And then and of course then there is like a pressure wave that's created and that turns into sound. So the light actually heats up the material, the in the air gets heated up and that air gets pushed out and makes sound. So listen to it again. Now, of course, you need special equipment to hear this, or else we'd be hearing it every day, all day long. And that's that. What'd you guys think of that?

B: Cool. Cool.

J: You love it.

E: Very neat.

J: Jay, you didn't love it.

B: Good fun, liked it a lot, didn't love it.

J: All right, I have a new noisy for you guys. I'm sorry. That's the Fast forward up here. There we go. Right here, Steve. So normally I would take out the white noise in the background, but I didn't do it this time. So that's a clue for you. If you guys think you know what the noisy is this week or you heard something cool, you can e-mail me at wtn@theskepticsguide.org. As you listen to this, it's probably too late to have bought the tickets for the Kansas shows unless you're listening to it at noon on on Saturday the 20th. And we will tell you next week how much fun we had. And it either turn out so far, we have great ticket sales. Very excited to go. I can't wait to see Cara. Yay.

E: Hey, Cara.

C: Hey.

J: And, and by the way, guys, if you enjoy the work that we do and you want to support us, you can go to patreon.com/skeptics guide and you can support the work that we do. And we have lots of new stuff coming, as we've discussed. Steve, when is our political podcast going to drop? Like in about two weeks, 3 weeks.

S: So I think we're going to our recording days in three, two weeks and then however long it takes us to do post production. So hopefully within a month we'll have the first episode out.

J: But we are making great progress and, you know, we know what we're doing now. How about that?

S: All right. Thanks, Jay. Yep, I have one question. This comes from Alex who writes. Hi folks. Alex, on your show of 19th July 2025, the opening discussion was flu vaccines and in that discussion it was mentioned that no study could ever be done which gave a placebo to participants because we know the flu vaccine works. Would a way around this be to invite participants who would who wouldn't normally get the vaccine due to personal choice, but who wouldn't mind either way if they did or did not get it? Surely there would be enough people who fall into this category. The question, I suppose, can be applied on a wider basis than just the flu vaccine, Alex. So what do you guys think to get what he's saying there? And so to get around the ethical problem of randomizing people to not getting a known effective treatment, which is unethical, like you could never get IRB approval for that protocol, right, for that study.

C: Well, that's the operative word there. They're no longer randomized.

S: Well, yes, they're they're no longer randomized.

C: Yeah. So if you have a bunch of people who are willing to take a placebo, they know that they're getting the placebo. Or even if they don't, even if they say I'm willing to get the drug or the placebo, there's a there's a variable there. And those types of people, yeah, that's different than the other group.

S: So it's, so it's not necessarily a representative sample exactly. So it's not a substitute for like the scientifically optimal study, which is to, you know, have no selection bias to completely randomize people to whether or not they're getting a treatment versus a placebo. So this this wouldn't do that. But I still, I also think that even within that group, you're still withholding an effective treatment from people. So even if they say that's OK, you can do that, it doesn't get around, it does not obviate the ethical consideration.

C: That's true. It's one thing for somebody to refuse treatment. It's another thing for a physician LED study, which usually these are for the for the researchers and or physicians to say we are withholding treatment.

S: Yeah, it's like just because if someone says it's OK to do 1 ethical research on me doesn't mean it's OK.

C: Exactly.

S: This is not about informed consent. What they do do is they do observational studies where or cohort studies or even prospective studies where they do follow people who choose not to get vaccines. But again, that's a self selective group. So it's not, yeah, not randomized. So it's not a substitute.

C: This is why clinical trials for new chemotherapies, for example, are often full of people who have failed out of all their other treatments.

S: Exactly.

C: They are people for whom this is the best option they have in front of them, but they're not forgoing treatment that we know works in order to try out treatment that may or may not work.

S: Right. Or this is the other way around it looking at the new treatment as adjunctive therapy. So we do this with seizure therapy too. Like you, you know, at some point I noticed like every new anti seizure medication, they get their first indication as an add on therapy. And that's pure purely for pragmatic reasons, because you can't withhold effective anti seizure medication from somebody to see if this new experimental drug works. You have to give them the effective medication plus placebo versus the new medication. So it's always studied first as add on therapy. It's the same thing with chemo. It's like, if we add this to the proven therapy, does it work even better? Or people who can't take the other ones because they've already failed it or whatever. So you're not withholding anything that somebody would otherwise get. All right. We're also going to do a name dot logical fallacy. This one comes from Mark.

Emails (1:09:18)

S: It's kind of a long e-mail. I might not read the whole thing, but I'll give you the gist here, He says. Over the past few years I have seen people using this reasoning in different contexts more and more. I grew up in the Bible belt and went to a Catholic school, and I used to hear comments like this much more often in the 80s, but it seemed that it died out a little. But now it seems to be coming back regardless of political or religious views. Here are the 80s versions that I remember, mostly the extremely religious. So then in quotes he says he was killed by a drunk driver and I don't feel sorry for him at all. He spoke out against prohibition. So in other words, saying that well because he was against prohibition, it kind of serves him right for getting killed by a drunk driver. Or he caught HIV and deserved it because he advocated for gay marriage or what? That's a weird one. But basically saying, well, HIV is spreading because of the gay lifestyle and that so your position of advocating gay marriage has come back to bite you because now you got HIV, but.

C: Is there a logical fallacy called blaming the victim?

S: Well. So we'll talk about what logical balance he's thinking here. Or he was killed in an armed robbery and he deserved it. He was an attorney that defended an armed robber. So things like that. And then he says some newer ones are you guys probably know what news item this is from. I'm glad those girls died in the flood. Their parents probably supported government funding cuts. Or Kirk was against gun control, therefore he deserved to die by a gun violence. So the question is, you know, is there a logical fallacy in there? And if so, what do you think it is? I mean, most of these definitely strike you as a non sequitur, right? But that's sort of the generic.

C: Logical policy and some ad hominem maybe. I mean, anytime you say somebody deserves to die, there's probably an ad hominem. Right.

E: Yeah, it's yeah, but.

S: They're yeah, but they're not really saying that they had a negative attribute. It's more that they took this position. Therefore it's, you know, part of it is that isn't it ironic, You know, like, isn't it ironic that somebody who was against gun safety laws died of gun violence? But then you take it a step further and say, well, you know, he has some guilt in his own killing. You know, he, he kind of deserved it because he was, you know, against gun control to begin with.

E: So it's hard to be sorry for. It is non sequitur.

C: Yeah.

S: It's like so much it's it's reap with you sow kind of logic.

C: Which which I hear with the other examples. I don't know, I I struggle with that because that's actually not the argument that's being made with that last news item, but OK.

S: Yeah, yeah. These are not really coherent. Coherent. We could think of examples that might. It always depends on the for again the with informal logical fallacy here. It depends on the precise formulation and how you look at it.

C: Absolutely, and I guess I'm I'm curious if there is an informal logical fallacy in the argument. Not that anybody deserved to die, nobody deserves to die, but that an individual who is quoted as saying that some deaths, you know, you've got to crack some eggs to make an omelette, basically that some deaths are the cost we pay for maintaining a Second Amendment, then dies in that very way. It's ironic.

S: Yeah.

C: You could say it's ironic.

S: Right. I think that you could say it's ironic, right? But.

C: Yeah, but I don't think there's like a logical fallacy in that. And to claim that anybody deserves death is, yeah.

S: Yeah, but even even in irony, again, depends on the specific details, that could sometimes be a false dichotomy. I think it so, you know, so if you, if you formulate it to say like you're either for us or against us, and if you ever said anything against us, then you deserve everything you get rather than saying, well, there's there are nuanced positions in the middle here, you know, like you can think that armed robbers deserve a legal defense and not think that armed robbery's OK, you know.

C: Of course.

S: So that I think so. So if you're banking on that notion of, well, you defended this, therefore you're on team whatever. So like there's no nuance in the middle. Like again, like with Kirk saying that, well, he was against gun control, therefore, you know, he's pro gun violence. Well, it's not the same thing, right? You know, or you know saying like if you're being pro gay marriage, then you're pro HIV or.

C: Yeah, like what?

S: You're against public health measures to minimize HIV or whatever. You know, it's like, no, there's like there's no nuances. I do think it's that US versus them. You're on what? You're in this tribe or you're in that tribe, and anybody in that tribe believes and advocates and deserves everything that goes in that One Direction. You know that goes along with this one issue.

C: It also feels like there's a straw man there. Yeah, there's totally, yeah.

S: It's a totally yeah, that. And again, often those things are linked like the straw man is the false dichotomy and also a false equivalency in some of these arguments and also a slippery slope, you know, so think all of these are elements can be there. So like saying that like equating speaking out against prohibition with being OK with there being drunk drivers down the road like Nope, that's.

C: Yeah, they have nothing to do with you. Have nothing to do with each other.

S: Is a bit of a false equivalency.

C: There, Yeah, or you're right. Like it's a slippery slope that if somebody is somehow not OK with one thing, it means that downstream. I mean, it's the same argument. It's the the the gay marriage 1 is a perfect example. Like oh he's he's pro gay marriage, therefore he thinks everybody should get AIDS and die. It's like. What?

S: Oh, yeah, you don't. You don't think prohibition's a good idea? So you're OK with drunken drivers roaming the streets killing people at random? You know, I mean like that kind.

C: Of and we hear.

S: Those kind of arguments all the time. So this is a complicated one cuz like there's a ton of logical fallacies potentially in these kinds of statements depending on the details.

C: I also, I wonder for just kind of an open question to the to the person who wrote in the question, how often are the those arguments that we hear lacking that much nuance? Like how often do you actually hear people saying so and so deserves to die because of XY and Z? Or is it more likely a a more nuanced question of like, I wonder if they hadn't made those claims so publicly, if this hadn't happened. Or, you know, it's almost like they're advocating for some sort of horrific karma.

S: Yeah, right.

C: And. I don't know how many people publicly say that.

S: Yeah, these it's not just pointing out the irony, it's aligning with their pre-existing political beliefs.

C: And of course. Biases.

S: Yeah, OK.

Name That Logical Fallacy (1:16:34)

Topic: Hello, First, thank you for spending your valuable time and reading this. w Over the past few years I have seen people use this "reasoning", in different contexts, more and more often. I grew up in the bible belt and went to Catholic school, and I used to hear comments like this much more often in the 80s. But, it seemed like it died out a little. But, now it seems to be coming back, regardless of political or religious views. These are the 80s versions, that I remember from, mostly, the extremely religious: "He was killed by a drunk driver and I don't feel sorry for him at all. He spoke out against prohibition." (arguing against prohibition, is not an argument for drunk driving.) "He caught HIV and deserved it. He advocated for gay marriage." (arguing for gay marriage, is not an argument for HIV.) "He was killed in an armed robbery and he deserved it. He was an attorney that defended an armed robber". (Defending someone accused of a crime, is not the same as supporting criminal activity). ....and nobody forgets this one: "I am not sorry she was raped. She was otherwise promiscuous and deserved it." (obvious) Where I am hearing this now: "I'm glad those girls died in the flood, there parents probably supported government funding cuts." and unfortunately have family members spewing this horror: "Kirk was against gun control, therefor he deserved to die via gun violence" (being against gun control, is not an argument for assassination or mass shootings). Is this "false equivalency?" or something? It kind of also has a "matte and bailey" vibe to it. It is also straight up lying... ala, nothing about being against prohibition means that you support drunk driving. Again, thank you for your time, Mark

S: Well, thanks for that question, Mark. All right, guys, let's go on with science or fiction.

Science or Fiction (1:16:42)

Theme: None Item #1: For the first time astronomers have discovered a 5 pointed Einstein cross, which modeling suggests is due to intergalactic dark matter.[6] Item #2: A recent study of the two most common anti-phishing training campaigns found no significant benefit or reduced susceptibility to phishing attempts.[7] Item #3: A recent analysis finds that current vertical lettuce farming has 20 times the yield per area and only one eighth the water use as traditional farming, but still has a significantly higher carbon footprint.[8]

J: It's time for science or fiction.

S: Each week I come up with three Science News items or facts. 2 real, one fake, and then I challenge my panel of skeptics to tell me which one is the fake. Three regular news items. Here we go, item number one. For the first time, astronomers have discovered A5 pointed Einstein cross, which modeling suggests is due to intergalactic dark matter. Item number 2A recent study of the two most common anti fishing training campaigns found no significant better no significant benefit or reduced susceptibility to phishing attempts. And Item 3A recent analysis finds that current vertical lettuce farming has 20 times the yield per area and only one eighth the water use as traditional farming, but still has a significantly higher carbon footprint. Who hasn't gone first in a while? Cara, go first.

C: All right, so we've got a 5 pointed Einstein cross. I don't even know what that is.

S: So it's a rare phenomenon in which if you have, let's say you have a Galaxy probably like 10 billion light years away, but 2 billion light years away, there's a Galaxy cluster. And because of gravity bending light, you see what's called an Einstein cross because Einstein predicted it, you'll see 4 galaxies like around, yeah, the light bending source. So typically, right, they are 4. They're across, they're four points. So for the first time astronomers have discovered A5 pointed 1, so there was 5 images instead of 4 images.

C: OK, and that suggests this due to intergalactic dark matter?

S: Because it's a gravity lensing, gravity bending light phenomenon.

C: Sure, I don't know. Two most common anti phishing training campaigns found no significant benefit or reduces. Oh geez really? So teaching people how to spot phishing attacks made them no more protected against FIT? Well I hope that's not science because that would suck. And then current vertical lettuce farming, 20 times the yield per area, 1/8 the water use, but a significantly higher carbon footprint. I'm worried that that might be science only because it is really good with because you can reuse the water like you can capture it because usually vertical farming happens indoors, not always, but it often happens indoors on drip irrigation where you can recapture the water. And of course it doesn't take up space because it's vertical. But I think it calls for like really intense lights. So and I think you know, and like maintaining humidity. Exactly right. And all of that. So I wouldn't be surprised if that's science. So I don't know. The first one I have no idea on. I'm going to say I hope that the phishing scam one is the fiction. I have no idea if it is, but it's going to bum me out if we can't teach people how to like, how to recognize phishing because like we're pretty screwed if that's the case. So I'm going to call that one the fiction.

S: OK, Jay.

C: Oh, and by the way, that's pH fishing. Yeah, to a listener, this might sound pretty funny. Oh yeah.

S: For the audience, right. Yeah.

J: Yeah, Cara, I hear what you're saying about the fishing thing. Like I want it to be the fiction. All right. So let let let's just talk about this. I'm not going to even go for the first one. I don't know enough to even comment on that. So the basic question here is of the people who are, you know, learning about fishing, like getting training on how to avoid fishing, would they have not any, not have any significant benefit of, you know, learning those skills? And I find that hard to believe if someone's going to take the time to like, sit down and learn skills. Yeah, I think I'm going to agree with Cara. I mean, the, the vertical farming thing, there's tons of vegetables that are grown indoors in indoor environments that need, you know, they need humidity control and lots of water and irrigation and all sorts of stuff. So I don't know if I don't know if vertical farming would have like a much worse footprint than those other methods. Yeah, it's an interesting question. I don't know. I just don't know. I would think it'd be more similar than dissimilar. So I'll go with Cara. I'll say #2 is the fiction OK, Bob?

B: So all right, we got a 5 pointed Einstein cross here. I'm I'm having problems with that because my understanding is that an Einstein cross is 4 points and that's just what it is. And if it's somehow doesn't have that, if it has say you know 5, then it's not an Einstein cry. I mean, it just seems like it might is the implication is that is it even possible Now I know of an Einstein ring and Einstein cross. The Einstein ring is when it's the alignments perfect and you have a beautiful ring that's just like a solid ring. I've seen some of those, but the cross is from misalignment. So maybe 5 is impossible, but I've only seen four. I've only heard of like 4.4. Ah, so it's either between that we're going with the crew here. That's good. I'll go off on my own. If, you know, I'm not quite sure that this is fiction. I'll say the Einstein cross is fiction.

S: OK. And Devin?

E: It's my first time hearing about the Einstein cross, so it's interesting. Suggests it's due to intergalactic dark matter. Dark matter causes This does seem strange, right? I don't know, but the fishing one also no significant benefit 0 Oh gosh, I don't know which one of the two I'll go. I'll go with the fishing one, I think as it's a coin flip. I don't really know how else to describe it. I'll just say it's the fishing. I don't mean to leave you alone, Bob, but I won't be surprised if you get a solo win this week.

B: Nah. Probably not, but.

S: All right, well, you all agree on the third one, so we'll start there. Our recent analysis finds that current vertical lettuce farming has 20 times the yield per area and only 1/8 of water used as traditional farming, but still has a significantly higher carbon footprint. You all think this one is science and this one is science. This is science. So you're all safe so far. And Carrie, you pretty much got it. So I mean, not surprising. It uses 20 times less land because it's vertical. That's kind of the whole point. And it's a closed system usually. So water use is going to be much less, but it's more energy intensive, no question. This was actually comparing it to vertical forming using renewable energy.

C: So that's still that much. Worse.

S: Yeah, it's even then it's worse. So it's not as simple as just saying, well, we'll power with elect with solar panels and the in carbon footprint. It's not all about energy use, although that is a big part of it. But there is some good news in here in that there are ways to reduce the carbon footprint. So that's what this study was partly saying, like we've got to, because, you know, so from one perspective, this vertical farming can be very sustainable, right, in terms of land use and water use. And especially on in a country like Great Britain where it's landlocked, you know, they, they, they're thinking we're really going to need to do this in order to produce enough, enough food, But they're worried about the carbon footprint. However, they found that, you know, making certain changes to the process, like here's one, researchers found that switching to alternative materials for. So right now they use jute fiber plugs and fibrous blocks made from JU in order to support the plants because they're not in soil, right. So if you switch over to coconut core coir, how would you pronounce that? I guess it's like the coconut fibers rather than the jute fibers could cut the land, the land footprint of vertical farms by more than 95%. That sounds good. They should do that because that sounds, that sounds pretty good. The, the carbon footprint difference was it's not was not as profound as the other thing. So the vertically farmed lettuce produce .93kg of greenhouse gases for every kilogram grown, while conventional farms used .57. So not even twice, but still that's a yeah, .93 to .57 is significant. So, you know, it still has it against a trade off, still advantages. Hopefully we'll be able to get that carbon footprint more in line with traditional farming. And then I do think via vertical farming is can be significantly, you know, helpful. All right, which one should we do next? I guess I'll go just go keep going backwards. A recent study of the two most common anti phishing training campaigns found no significant benefit or reduced susceptibility to phishing attempts. Evan, Jay and Cara. You think this one is the fiction, Bob? You think this one is science? All by your lonesome and this one is science?

B: Wow wow.

S: Yep, the cyber security training programs had. A bummer, no? Effect.

B: No. Effect. I'm not surprised. Gee whiz, Christ. And people are people.

S: You know, you know how they partly assessed the effectiveness.

C: To see if people clicked on the links over and over.

B: They they. They trapped them.

S: They used internally generated fishing campaign like they faked fishing attempts to see who would click the links and they just did it just they did it at the same frequency whether. They had you.

E: Know here's your training, any of the training. Hey, look a link click. Wow man. Oh gosh.

S: Obviously.

E: We're too tempted to press the big button, right? The kind. Of yeah, things. Like you see a big button.

S: And this is a study of 19,500 employees over 8 months. So it's pretty, pretty robust. And so the, the, so here's actually they also were trying to look at what were the phishing campaigns that were more likely to succeed. So here they, and they started to give 2 examples. So recipients clicked on a phishing link to update their Outlook password only 1.82% of the time. So I guess because it was like a password, they were more alert to that. But then 30.8%, almost a third clicked on a link that was purported to update the institution's vacation policy, right? So it's like click here to update your vacation, whatever thing. 1/3 of the people clicked on the link. So the authors conclude that anti phishing educational programs don't work and that they basically should just not use them as a means of reducing the yeah man, you know, phishing campaign impact that they basically should rely on counter measures. So two factor authentication is one that they mentioned. And also you could program password managers so that they only work on legitimate domains, right? So your passwords will not interact with the password managers will not interact with bogus domain names.

E: I like that.

S: But those are just two. So it's that's it. You have to build, you have to bake it into the technology itself. You have to. You have to build in like I do 2 factor authentication on everything now.

E: Yeah, I pretty much do and.

S: Most sites require it, you know, it's like not even an option, but if it's ever an option, I always do it. Of course, if anybody actually got, well, I guess if they got a hold of my phone, they'd have to break into, they have to break into it. But if you could break into into my phone, yeah, I'd be effed.

E: But as soon as you knew your phone was missing, you'd. Call.

S: Yeah, right before, Yeah, before they could break into it, I'd have to like, change everything and.

E: And that's not something you'd let 24 hours go by. No. For right, you'd know it in an hour or two.

S: Whenever, I mean, there have been about you guys, but there have been times when like I got a whiff of some security breach, sure.

E: Like.

S: Oh yeah, like some company I'm working with says, hey, we've had a data, but your data may have been compromised and blah, blah, blah, gosh or something, whatever. Anything weird happens. Like I get a phishing e-mail that's like that uses sometimes they'll bait you with some information about you that they just purchased from from some third party, right. Whenever that happens, I just purge all my passwords, especially the critical ones like my Google password, the one that gets you access to my Google password manager. Like that I will not keep around old passwords if there's been any kind of data breach at all.

E: Yeah, and you can do health checks on your passwords and things like that. Google has the tools for that. It's actually pretty good. I've used it and I've found a few old things in which it's like questionable, yeah, this may have been compromised. I'm like, I'm not questioning it. I'm changing it. It's out.

S: Pretty hard. So here's one more thought I had though about this study because you could also conclude that these cybersecurity training programs were just not optimal. I don't think this necessarily means that no training can possibly be effective. It's just that these now these were the most common ones used. And it's basically like you have to, you know, people had to get certification, right? You had to go through the cybersecurity training program, get your certification that you did it and how.

C: Many people even pay attention to those. Right.

S: That's how you know, I mean, you know, so I've had to do 20 whatever certifications every year, right? In medicine, I'm sure you'd have to do that all the time as well care and they do make you take a test at the end of it to show that you absorb the critical information. And so just going, even if you're trying to like minimize the work you're doing to get the certification, you still be can't help but learn stuff because you know, there's just, you know what I mean. But that doesn't necessarily mean that it's optimal like that. You really like retained and pay attention to the information, I think.

C: Well, and a lot of us know things cognitively, but that doesn't mean our behaviours reflect that.

S: Right, true. So maybe, exactly so maybe they have to just use more interactive and active training programs like with a person who's telling you and they might. The other thing is like doing it once a year is not enough. And we know this from, you know, educational research that you have to reinforce it. And so doing these phishing things where they're, they're pretending to be a phishing campaign to test how the employees were responding. How about doing that and then saying you just fell for a phishing scam. This is the lesson that you that you, you know, whatever didn't retain from your certification or you have to redo, you have to come now. You got to come to class.

C: Yeah, you best believe people would be incentivized not to have to do that. Yeah. I'm.

S: Not.

B: Public. Embarrassing is public. Embarrassment is powerful, man.

C: Well, and just having to do more training.

S: Nobody likes doing that work, yes. Yes, I'm not convinced that this means that that it couldn't possibly be effective, but certainly just this get your get your online certification is not good enough. That is not good enough, all right. This means that for the first time, astronomers have discovered A5 pointed Einstein cross, which is which Modeling suggested due to intergalactic dark matter is the fiction. But Bob, you were right for the wrong reasons. They did just discover A5 pointed Einstein cross. This is the fiction because it's not the first time they've discovered several. This is just the latest one. I also made another aspect of it. The fiction Dark matter, not dark matter intergalactic. What the hell is dark matter doing intergalactically? This was a So what they it's a 5 pointed.

B: I totally didn't even see that word intergalactic.

S: What I meant and what that means is it's not not like the Pentagon or whatever, not like a star, it's four. It's like the cross with a fifth image in the middle. So it's 5 images.

B: Wait, they all have that?

S: No, they don't have. They don't have that. They have just the four. They do not have a central image. And and the ones that have been discovered previously, often times that central image is really faint. But in this one it was very bright. It was as bright as the other images and it's very rare. And so it's got to be some kind of rare situation with the other ones. What what they think is going on is just that they're, it's not like 1 Galaxy that's the causing the gravitational lensing. It's multiple galaxies. So it's creating a more complicated lensing pattern that gives you these five images instead of the typical 4. In this case, they modeled it, and the only model that could explain the image was a dark matter Halo around the lensing object. So not intergalactic, but a Halo around the object, which makes more way more sense because that's where dark matter is supposed to be. Yeah. So this is sort of fiction for two reasons. Wasn't intergalactic dark matter, and it wasn't the first time we've discovered A5 image. Einstein Cross.

C: Steve, you could change the wording of this one and give it to us next week and I would still get it wrong.

S: Yeah, I know this one's a bit wonky, but yeah, I didn't know if any of you this is in the news, you know, you might have heard. It.

E: No, I hadn't seen it. First time I've heard of it is you bring it up right now.

S: Good, Good job, Bob.

E: Way to sniff it out, Bob.

Skeptical Quote of the Week (1:35:18)

"Even if individual researchers are prone to falling in love with their own theories, the broader process of peer review and institutionalized skepticism are designed to ensure that, eventually, the best ideas prevail."  – Chris Mooney, (description of author)

S: All right, Evan, give us a quote.

E: Even if individual researchers are prone to falling in love with their own theories, the broader process of peer review and institutionalized skepticism are designed to ensure that eventually the best ideas prevail. That was written by Chris Mooney.

S: Yep.

E: Yeah, we haven't spoken to Chris in a while. Chris was on the show a long time ago, wasn't he?

S: Yeah, it's been a while. It's been a minute it.

E: Has been. That's right.

S: This exactly dovetails with my news item, the idea that, yeah, yes, there are problems with individual researchers with, you know, again, falling in love with your own theories, trying to sex up your theory, your grants to get, you know, whatever to increase the chance of getting attention or getting grant. All these things happen. But these are around the edges, right At at its core, there is, you know, with the mainstream institutions and journals and legitimate scientists. At the end of the day, the best ideas do have a tendency to prevail over time, right? There is no substitute with for actually being true and having real world evidence support. You know your ideas. You can only fake it for so long, you know.

E: Right. Yep, good reminder.

S: Yep. All right. Well, thank you all for joining me this week, you guys.

E: Steve.

S: Looking forward to seeing you all in Kansas.

C: So soon more.

E: Hey there, you pass right now.

S: And until next week, this is your Skeptics Guide to the Universe.