SGU Episode 837: Difference between revisions

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

How to Contribute

SGU Episode 837
July 24th 2021
(brief caption for the episode icon)
SGU 836                      SGU 838
Skeptical Rogues
S: Steven Novella
B: Bob Novella
C: Cara Santa Maria
J: Jay Novella
E: Evan Bernstein
Quote of the Week
When people don’t search for scientific evidence for things, they find a very compelling, convincing person with a very sympathetic story and think they must be right. They’re convinced that this is true. But it’s not true. You need to be able to question it. If people aren’t conversant in science, they mightn’t ask those questions.
Aoife McLysaght, Professor in the Molecular Evolution Laboratory of the Smurfit Institute of Genetics, University of Dublin, Ireland
Links
Download Podcast
Show Notes
Forum Discussion

Introduction[edit]

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

S: Hello and welcome to the Skeptics' Guide to the Universe. Today is Wednesday, July 21^st, 2021, and this is your host, Steven Novella. Joining me this week are Bob Novella...

B: Hey, everybody!

S: Cara Santa Maria...

C: Howdy.

S: Jay Novella...

J: Hey guys.

S: ...and Evan Bernstein.

E: Good evening everyone.

S: Welcome back, Jay. You had a two-week hiatus.

C: I missed you.

J: I missed you guys. It's funny. No, I didn't originally select to go away for two weeks, but I wasn't opposed to it. But I didn't realize that's a long time to be away from work.

C: Wait, were you in Hawaii for two whole weeks?

J: I was there for two weeks.

C: That's a long time. Were you in a remote part of Hawaii or were you in Honolulu?

J: I went to... No, we didn't go to Honolulu. We went to Kauai and then we went to the Big Island.

C: That's a long time to be vacationing.

J: It's a long time.

C: I feel like I start to get itchy to come home.

J: Yeah, at day 10. So day 10 and 11 is when I felt it turn in my head. I'm like, I could go home. You know what I mean? Plus, I was with nine other people. There was 10 of us. It wasn't like I'm just alone with my wife and it was quiet and we're doing all sorts of fun stuff. It was kids. So it was a kid-centric vacation.

B: So sex wasn't happening.

J: Yeah. I mean, that's a funny thing, right, Bob? Yeah. But you know. So bottom line is though, Hawaii is the second prettiest place I've ever been to in my life. Of course, New Zealand being the first.

C: Well, Hawaii and New Zealand have a lot of similarities.

J: Yeah. They do.

C: Yeah. Yeah.

J: Yeah. So but wonderful trip. You know, we did a lot of really cool stuff. I was trying to expose the kids to as much as we could. We swam with a manta ray and we went on a really cool snorkeling thing, saw the volcano. There's just so much in Hawaii and all the islands are different. They have they have different kind of vibes and climates and all sorts of stuff. It's a beautiful place to go. And if you can afford it, I recommend you go. You're going to spend a lot of money there because everything has to be shipped to the islands. Like everything. Everything that you-

C: Yeah, it's a very expensive place to live even.

B: Except the sugar cane.

C: Did you, when you guys went to Volcanoes National Park, did you stop at the like orchid farm at the base of the mountain?

J: I wasn't told about that. What is that?

C: There's like a really pretty little orchid greenhouse-y farm area where they have all these really exotic and I don't know, they grow a lot of really gorgeous orchids that you've never seen before.

J: So but you know, so you know, then you know this and Steve, you've been there as well, right? So like you have a viewing spot where you could see the mouth of the volcano and it is like a mini Grand Canyon. It's huge. It's huge. So it's hot there. It's hot, right? So the water seeps down into these cracks and then it spews back out because it turns into steam. It's kind of like a mini geyser, right? So you just see like steam coming out of the ground, but sulphur and other nasty things are coming out with it because it's just kind of oozing out, I guess, of the soil and everything. So you're seeing like these holes, and there was a picture of a warning picture where this kid like veered off the path and fell into one of these holes.

E/C: Oh my gosh.

J: Yeah, it was terrible. I don't even want to go into the details because like my kids are there and we're like, oh my God. You know, but bottom line is it's dangerous. It's a dangerous place to go. You never know when something's going to happen. They have a very good idea on what's going on and everything, but still, it's a volcano. It spewed intense amounts of a billion yards of lava like two and a half years ago. Like it's no joke. It's one of the wonders of the world. Like God, I wanted to see lava so bad, but you know, not to my detriment, right? I don't want to ever be in a situation where I'm like, I've got to run.

C: Yeah, that's horrible. While I was in the Big Island, I took a helicopter trip from Kona to Hilo and back and we flew over a lot of lava flow and it was really cool to see it like from that perspective because not only could you see the beauty of the lava, but you could also see how it changes the landscape and becomes rock becomes the landscape. How cool is that?

J: Yeah, well the airport, the airport at the Big Island, they built a new airport on lava that flowed 200 years ago. Like it just made more land and I'm like, oh, this looks pretty stable. Let's build an airport. Now, Cara, I have some news for you because you were not at last Friday's live stream, which I was-

C: Yes, please.

E: Is this about the pineapples?

J: Yeah, I have to talk about it again, Evan, I'm sorry. Thank you. But I did experience some alternate bananas to tell you about. First, I could not get my hands on a Gros Michel banana. I tried. I found out that they're called bluefields in Hawaii. Didn't help. I kept asking, kept asking, couldn't find any. I was really disappointed. Okay. But I did get to eat apple bananas and candy apple bananas and I ate ice cream bananas. I found out that ice cream bananas are cooking bananas, so they don't taste like ice cream. They're not creamy. There's nothing nice about them. They're just like cooking bananas. Kind of, I don't want to say like plantains because plantains are really weird if you bite into them. It's still an edible banana.

C: I love plantains.

J: Yeah, you can't eat a raw plantain.

C: No, yeah. You want to cook a plantain. Oh, that's what you mean by cooking bananas. Okay. Got it.

J: You can't cook a plantain out of the ice cream bananas.

C: By the way, to interject, Jay, have you had cotton candy grapes?

J: Nobody has ever offered me them, no. I want them, though.

C: They're so good. Cotton candy grapes, keep your eyes peeled for them. They're so yummy.

J: Oh, I thought, yeah, they're in my local grocery store. But okay, the apple banana and the candy apple banana, which was my favorite, were delicious. And they don't taste like apples. They just have a tartness to them. There's a dimension of flavor that's added that is special and it's wonderful. And if you ever have the opportunity, please try them because I really, really enjoyed them. And then, oh my God, the other thing I got to try is called a sugar loaf pineapple. All right. They selectively bred these pineapples. So this is what they did to them. One, I think it's an artifact and not done deliberately, but the flesh of the pineapple got to be a much, much more white colour than like the typical yellow, like dark-ish yellow colour that a normal pineapple has. So imagine if it's a lot more white. There is no center core. You can eat the whole thing. And it's got four times the sugar and I dare say like 10 times the flavor of a regular pineapple.

C: Wow.

J: Yeah. They're amazing.

C: Did you learn about how pineapples grow? It's so weird.

J: It is weird. It doesn't make any sense. It looks like they grow from the tops, not the bottoms. It's so weird.

C: I'm wondering. And there's just the one and they take forever. It gives you a better appreciation every time you eat a pineapple, like how much work goes into it. But did you notice that with this sweeter pineapple, what'd you call it? What was its name?

J: A sugarloaf.

C: The sugarloaf pineapple. Was the papain content as high as a normal pineapple? Because I can't eat raw pineapple. It like burns my throat.

B: Really?

C: Yeah.

J: Cara, guess what? It's damn near acid-less. It doesn't have any.

C: Oh, then I would love that.

J: Yes. I mean, they said that they genetically bred it. They didn't do it. It's not GMO. They just selectively bred it out. They're like, you don't want it.

C: It's really not. It's not about, I think, acid. I think the issue is that pineapples have a high level of papain, just like papaya do.

J: Enzymes.

C: Yeah. It's an enzyme and it's like a digestive enzyme. We used to use it in the lab to help break down like cell membranes and stuff. But yeah, it hurts. I find that when I consume pineapple, it's painful.

E: That pineapple sting?

C: The sting and the itchy throat.

J: It'll make you bleed.

C: It's hard for me.

J: So this was the ultimate. Evan, I endeavour to have one of them with you. We can order one. Now look, we'll drop 80 bucks at some point and we'll do it.

E: I'm so in on that.

C: It costs $80 for one pineapple?

J: To ship it. No, you can buy them out there for about 13 bucks.

C: Oh, I see. But then to ship it. And you have to do it on the up and up because there's the rules about shipping fresh food.

S: So guys, I want to tell you about this email I got recently.

B: Oh, you got an email?

S: Yeah. Occasionally do get actual emails. So this was from somebody who, I'm just going to paraphrase, he said that he's been a long time fan of the Science-Based Medicine website. He's like some kind of teacher and he often will send his students there. But he no longer can recommend Science-Based Medicine because clearly, clearly we are now a propaganda organ promoting what? What do you think this guy was upset about, Science-Based Medicine?

E: Vaccinations.

C: Oh no.

J: I read it, so I know the answer.

S: Vaccinations.

C: Oh, no.

E: What is going on?

C: Has he not read any of the other articles on Science-Based Medicine?

E: What happened to the years prior to this all about the vaccination articles? Never piped up then.

S: Well, I think I know what's going on. It's always amazing how when people disagree with whatever, like on any articles I wrote they immediately go to, you must be getting paid by industry or you must be in the pocket of big government. Whatever it is.

C: Oh, for sure. Shill, shill.

S: It's like immediately they assume that we're compromised. It's like, no, we actually have these opinions because the cognitive dissonance is too much for them, I guess.

B: And we came to those opinions using the same methods we used to come to other opinions.

S: Yeah, yeah. Right. So anyway, I want to use this as a segue to our COVID update this week, which is all about vaccine hesitancy.

COVID-19 Update (9:26)[edit]

S: So in the U.S., the U.S. did a great job with a vaccine roll-out program. They really were able at the peak we were getting three million vaccine doses delivered a day. And now we're essentially pushing up against vaccine hesitancy. That is now the limiting factor.

C: Oh, yeah.

E: Which we knew at some point would happen.

S: And the question was always, what's that point going to be?

E: You hope it's much, much later than it turned out to be.

S: So right now in the U.S., 68.3% of adults have been vaccinated, close to the 70% goal that the Biden administration set, but not quite there. But we'll get there by the end of the month.

C: Wait, that sounds high.

S: That's of adults. So that's not including children who are not eligible for vaccination. It's only 48.6% of the U.S. population.

C: Yeah, I was going to say, I think that California is like 49, 50% of the population and we're like ahead of the curve.

S: Yeah, it's 56.1% have gotten at least one dose, 48.6% fully vaccinated, 16.3% of adults. And so we're we don't know exactly how to calculate in people who have immunity from being infected because we don't know how much overlap there is.

B: Interesting.

S: So the question is, are we at herd immunity? And the answer is yes and no, because this 68.3% is not evenly distributed around the country. And in certain locations, it seems that we are having some functional herd immunity, meaning that the virus doesn't have enough people to spread to and so it can't be self-sustaining. And in other locations, there are high concentrations of people who do not want to get vaccinated. So we have lower vaccination rates. And the virus is happily spreading in highly unvaccinated populations. The data is overwhelmingly clear. So we have not achieved enough distribution of vaccination to prevent COVID from spreading. Now back in February, and I wrote about this and I know we talked about it in the show, that we're basically in a race between variants and vaccination. And the question was, by the summer, who was going to win, right? Not that kind of variant. So the viral variant. So what do you guys think, did the variants win or did the vaccination program win at this point?

C: Oh, well, at this point, yeah, at this point-

E: There's a lot of variants.

C: I think it's hard to say, did the variant win or did the vaccination program win because there's like self-sabotage of the program.

S: That includes that.

B: One in a sense.

S: That includes all of that.

C: Yeah. Then I think the variants are winning. I don't know.

S: Unfortunately, the number of cases are starting to turn back up. So it's still a little too early to say hopefully that'll be, because we don't know when that's going to turn back down again. You never know.

C: But in California, we just rolled everything back. We're back to, I mean, it's not lockdown, but it's mask mandates everywhere. It's you know, I think social, I don't know about social distancing going into effect, but schools are starting to change their rules. Yeah, it's, we're going backward, not forward now.

J: We were just pulling out.

C: I know. This is why I get so mad. This is why we can't have nice things. These people are ruining it for the rest of us. Like we're all working so, so hard. And then there are people out there who, and this is, again, I'm not talking about the people who are afraid, who for medical reasons have an inability to get vaccinated, but I'm specifically talking about the people who ideologically are choosing not to get vaccinated. It makes me crazy. And I think part of the reason that it's so frustrating is that we use words like vaccine hesitancy. But I think that the vaccine hesitant community is a community that I empathize with and that is a smaller portion. There is an agenda out there. It's not vaccine hesitancy. It is anti-vax.

J: Yes, yes, anti-vax. It's anti-vaxxers.

C: And those are the people I'm frustrated with, not the vaccine hesitant.

S: The thing is, I always have to say this the SGU is a nonpartisan show and we don't get involved in directly political issues. We do involve politics because politics are involved with science and with medicine. And in a lot of the things that we advocate for, we can't talk about vaccines without there being a political angle. Unfortunately, not us, but some people have made vaccines incredibly political. And in the United States, the data is absolutely clear that essentially the Republican Party has decided to make anti-vaccination part of their ideology. And if you look at the right wing media, the conservative media, they're all in on anti-vax right now. They're pushing it hard like this is just part of their narrative now. And I think that that's what was behind that email from that email, this vehemence of you're a government stooge if you're pushing the vaccine for COVID. And the other reason why I say that is because the having been a follower of multiple science denial campaigns, especially ones that are politically motivated, you start to see how the media ecosystem feeds on certain narratives, right? And that's what we're starting to see. We are seeing a huge increase in those kinds of narratives being marshaled for this anti-vaccine ideology. So in other words, when you start to get email from people, and it's not like I heard this or I'm concerned about that, they come prepared with this narrative that they clearly consumed in some media outlet. And it's the same one that I'm getting from multiple, multiple different people. It's like, okay, you guys are all feeding in the same ecosystem here. And this is now this is the narrative of the day. This is what you are being fed. That's what we're seeing now, this essentially program of anti-vaccination among the right wing media.

J: Steve, my observation, though, is this is like one of those things like, where are you? Do you want to be a skeptic first? Or do you want to be a political party follower first, right? Of course sitting in the seat that I'm sitting in, people have to put their critical thinking first. That should be your first filter. Politics should not be your first filter. Everything should be going through your absolute most critical mind that you have.

C: Right. But the problem is that, Jay, it doesn't feel like politics when you're watching the news. It feels like you're just getting information. And I think that's the frustrating part about this approach is that it's a deeply biased source of "news". The good news is, I think Hannity recently begged people to get vaccinated. I think but the problem is on the other extreme of that, you've got a Tucker Carlson who is, digging in his heels. And that's frustrating.

J: But Cara, even if that is true, and I wanted to make sure that got out there. There were a couple of talking heads that said, I got vaccinated. I believe in vaccinations. Please get vaccinated. That's great. They should have said it a long time ago. But the problem is, even with Hannity, if you look at what he talked about before he made that comment, and after he made that comment, it just complete like opposite, basically opposite so he just like shoehorn that in there. And it's just it's ridiculous.

S: And listen, there's a lot of there's a lot of Republican politicians who are saying go out and get vaccinated.

C: Yeah, for sure.

S: Especially if you're like a governor, or like, it's your job, you like to, to vaccinate your state. So I'm hearing a lot of that.

C: But it is my dad's a Republican. And he's he's actually Fox News consumer, he got vaccinated as soon as he could.

S: So yeah, it's certainly not uniform, but it is it is making it more challenging. But Cara, I think you hit upon something. And that's also a key difference between vaccine hesitancy and this current crop of anti vaccine that we're seeing that the people who are vaccine hesitant, have questions and concerns and they're legitimate questions. They're not the fake just asking questions there. They honestly don't know. I heard that people are getting myocarditis and that scares me and I don't know what the truth is.

C: Or I am actually have a predisposition to X, Y, and Z. And this scares me. Am I a candidate for this?

B: It's not FDA approved. It's using a new technology. Sure.

C: Sure. It's scary.

B: That makes sense to be a little scary.

C: And it's confusing.

B: But not anymore. Not in July 2020.

S: That's true, Bob. But that's why the new crop is not this vaccine hesitant. I don't understand. I have concerns. This is people who have the illusion of knowledge. Because as you say, Cara, they have information. They're just loaded up with misinformation or selected information. And they're much more challenging to deal with. Like the people say, oh, what about the myocarditis? I can say it's 12 cases per million doses, and mostly mild no one was harmed by it. So the numbers are very reassuring. But then you have people say, yes, but I heard it's really 6000 cases. And they're high. And it's probably a lot more. And they're like, full of misinformation that gives that they gives them the illusion of this confident knowledge. And so you can't just cruise, yeah, they're, they're hopeless, they're hopeless.

C: And this is something that I asked her. So I know this is okay. But like, this is something that hits home for me, because my own mother recently got COVID and my mother is vaccinated. And she was vaccinated as soon as she was able to be in Texas. Because she was exposed to somebody who has anti vaccine ideology, and chose not to get vaccinated. And because of that, she got sick. And and she didn't just have most of the cases of people who are vaccinated, catching COVID. They're asymptomatic, they probably wouldn't even know it, except they had to get tested because of work or because of whatever. But my mom, it was short, but it was sick. She did not feel well, for many days. And now she's having to isolate quarantine at home, she did everything right. And she's paying the price.

S: And it's not only that, it's also just like, how about we'd like to get the economy going again which in itself causes a lot of harm. This is why like the Biden administration is really pivoting to directly confronting vaccine misinformation, because that's the that's the problem now. We have the doses, we have the ability to get it out there, it's just that people don't want it. And so we are paying the price for allowing pseudoscience to fester in our medical system and in our social media, etc. for all of these years. People ask, this is this is definitely one of the harms from alternative medicine, too, because alternative medicine industry is completely rife with anti vaccine sentiments, as well as anti authority anti expertise, anti institutional medicine, etc. And so, yeah, we created millions of people who were susceptible to anti vaccine propaganda. And we shouldn't be surprised when in the middle of a pandemic, this is now biting us in the ass. I don't think we will learn this lesson. I don't think we'll learn the lesson from it. But it's absolutely true.

J: What's happening out there, though? This is this is the information that I can't find. Are people responding to this mini non vaccinated pandemic or are they are they digging their heels in?

S: My personal experience that they're mostly digging their heels in. I'm sure the needle's gonna move a little bit, but I don't see any massive change in the people who are think that they're justified in being anti vaccine. Also, the longer and the more you dig in your heels, the harder it is to admit that you were duped. You know, people in a cult when the UFO doesn't show up, they go on a they go on a membership drive. They don't say, oh, I guess I was gave all my property away for nothing. You know, they don't easily admit that they were that they were wrong.

B: And then they say, then our efforts save the day. We changed history.

C: Yeah. I think my favorite meme that I've seen going around, and I hate that I'm not giving credit to the original person that wrote it, but I have no idea who it would be, was something like, I think it's time to retire the phrase, avoid it like the plague, because clearly we're not smart enough to do that.

B: Oh, I like it.

S: They've ruined that phrase, avoid it like the plague.

C: Yeah. Like, we clearly are like, no, I'm just not going to avoid the plague. Like what? What?

S: Well, I think as we've said before, if humanity goes down, it would be will be because of our own stupidity. That's the greatest threat to humanity is, is this is just is our, the dark underbelly of our psychology. And that's what we're facing right now. All right, let's move on to some news items.

News Items[edit]

Plastic Tipping Point (22:15)[edit]

• Is global plastic pollution nearing an irreversible tipping point?^[1]

S: I hate to move on to another dark one. Jay, we've got some brighter times ahead, I promise.

C: Good, get it over with.

S: But Jay, you're going to tell us about a, are we reaching a plastic tipping point?

J: The answer is yes, unfortunately, I'll give you guys an update, but I just want to ask you guys a couple of questions like, so decisions we make every day can and do have a dramatic impact on the world because everybody like, just like what we were just talking about, right? So if you're not getting yourself vaccinated, your little tiny part in not getting vaccinated is part of a bigger problem. And something you might not think about is the amount of plastic that you use. Do you really sit around and just think about how much plastic you interface with and you purchase and you dispose of in your daily life? We all need-

E: Lately, more and more, but probably I can do more.

C: I'm kind of obsessed with this.

J: Yeah. And, and I know you're interested, Cara. I am too, by the way. I'm right along with you. Every time we talk about this, I'm like riveted when I hear about it. Just as a fun and maybe a little unnerving exercise, just scan the room you're in right now real quick. Look around. How many things are made of plastic?

E: Pip, pip, pip, pip, pip.

J: Right? Plastic, plastic, plastic. It's everywhere. Everything. I got plastic in my eyeglasses. I'm wearing plastic.

B: My plastic robots are awesome. They're not going anywhere.

E: Well, as long as my plastic stays plastic, it doesn't break down and go into the ocean and in other places.

C: Yeah. But where's it going to go when you're done with that plastic? That's the problem. It doesn't break down. The reason it breaks down in the ocean is because it breaks apart, not because it biodegrades.

J: All right. So do you guys do this? Like, I started doing this. When I drink soda, I refuse to drink soda, pretty much drink anything out of a disposable plastic container. I just don't do it.

C: I don't buy it. I buy, I only buy Mexican Coke in a glass bottle. That's my...

J: And as weird as I thought this was probably five, 10 years ago, I bought myself a nice stainless steel Camelbak drinking container. You know what I mean?

C: And one of the greatest ploys that these corporate behemoths that produce single-use plastic, one of the greatest things that they, like fleeces that they pulled out on us was shifting the onus to the consumer and not taking responsibility.

J: Exactly.

B: Yeah.

J: So researchers from Sweden, Norway, and Germany published a paper on July 2nd in the journal Science and they're now saying that the amount of plastic emissions globally is coming to this kind of a tipping point where we could not reverse the damage that's done. The authors say that plastic pollution is a global threat. It's not like this is just happening in your country. It's happening everywhere and it's moving... The plastic is moving everywhere from everywhere. You know what I mean? So we need to, they say that we need to drastically reduce the amount of plastic that makes it into the environment. Today's plastic can be found pretty much everywhere. Like I said, now it's everywhere, meaning it's in our house, but it's everywhere on the planet as well. You can find it on any mountain. There's just plastic. You know, people have been there and they've dropped plastic and there's plastic particles, all the way to the deepest parts of the ocean, to the hottest deserts in the world, to the coldest Arctic climate. So global emissions in the world's waterways, like oceans, rivers, and lakes range from nine to 23 million metric tons per year. Now look, we don't know. Who knows what that is, right? I can't visualize that. But it is, all you need to know is it's a fantastically enormous amount of plastic.

C: There's so much plastic, Jay, that it's in our blood chemistry and it is packing the abdominal cavities of marine animals left and right.

J: Yeah. Not to mention that their heads are getting caught in plastic bottles. So okay. So I said nine to 23 million metric tons per year are entering the waterways of the world, right? That's the same amount that's happening on the land as well. So you just double that.

S: Jay, there is a technical term for that amount. It's technically a shit ton.

J: A shit ton.

C: Yeah. I thought you were going to go F, but S ton.

J: Yeah, me too.

C: Yeah. I know. I was like waiting for it. I was like, Steve.

J: So these are estimated emissions and they're forecasted to what, guys? By the year 2025, where will this nine to 23 number go?

E: Double.

J: Double. Right, Evan. It's going to freaking double in three years, guys. I don't know how, Bob.

S: Well, a lot of it too is that we're seeing the effects of the industrialized world. And now as we develop the developing world, that they're adding to the total numbers.

C: Yeah. And then the gross thing is that the industrialized world turns to the developing world and blames them for our problems. Like, oh no, you can't have cars and put off emissions. You can't have all of these nice things because we already did that and created a tipping point. And now you're going to put us over the edge.

J: And even though people have been made aware, I've known for a very long time, it took me way too long to upgrade to a steel water bottle. We significantly continue to increase our use of plastics and the use of plastics is deeply ingrained in our society, right? And it's also now, today, it's a political and an economic issue, just like Cara, like you were saying. I have a question. Why can't companies like Coca-Cola and Pepsi just say, no more plastic? We're done with it.

C: It's cheaper to use plastic and they have really good lobbies.

B: It's the bottom line.

J: Lobbies.

C: It's all about the bottom line.

E: Yeah. And their models are built on plastic.

S: Well, part of it too is, and this is something, this is a concept, you don't have this concept in your repertoire, you need to add it. The notion of externalized costs. If you allow a company to do something that's cheaper for them, but then shifts the cost on to society, for whatever reason, so we're like, we all have to now pay for the plastic cleanup that they profited on, and so we're allowing them to externalize that cost. So if you just don't do that, you say you have to pay the actual total cost of your industry, then things that are more environmentally friendly become cost effective. So like it might be then cost effective to switch to glass from plastic.

J: Let me lower the boom here, guys, on like cleanup and recycling technology, right? Because this was, you remember, I remember the first modern Earth Day that happened, I forget, was it 20 years ago? There was a big Earth Day that happened that was like, yeah, and if you recycle, everything's good. Well, plastic recycling, no bueno. Not good.

C: Oh yeah. Not good at all.

J: All governments need to do, world governments need to immediately invest in technology that can help remove plastic from the environment, right? That's one thing. That's not even recycling, it's just picking up plastic that is out in the world. Consumers need to make, and this is every one of us, and if we all, everybody listening to this show could just listen to this, and if we all make changes right now, we need to make a dramatic change in the way that we perceive plastic. It's not as simple as putting it in your recycling bin at your house. Like I said, the researchers say that we have to dramatically reduce the production of what they call virgin plastic. So that's brand new plastic if you didn't figure it out. How do you do that? What's the deal with this? If we reduce the amount of virgin plastic that's being made, this will increase the value of recycled plastics, and companies will become economically invigorated to work with recycled plastics more, and we also have to globally reconfigure how plastics are recycled because right now, plastic recycling is not what you think it is. It's not-

C: It's terrible. You can really only recycle one in two plastics. Yeah. Most people throw stuff in their recycling bin that's not recyclable and that completely Fs up the recycling machines that most municipalities use. You should never be throwing away plastic bags, plastic films, blister packs, that really thin crappy plastic that most things come in. It's not actually recyclable.

J: But Cara, you could spend a week, I don't know if you've ever seen this. I know Bob has, but there are people that have dedicated the time to say, we're going to clean up this beach, or we're going to clean up this roadway, and they take all the garbage and they get rid of it. Well, a huge amount of it is plastic, right? But here's where things get scary. Okay, so they pick up the plastic and then they bring it to a recycling center and it gets returned back to nature. You know what I mean? It's like we can't-

C: Yeah, because it's not recyclable.

J: So here, let me give you some more information. So when plastic is in the environment, however it gets there, if it goes into a landfill, if it's just being thrown out a car window, or if it finds its way into the ocean, it breaks down and it's known as weathering, right? So we can't rely on the degradation of plastic in the environment, and I'll tell you why. Plastic breaks down in the environment. It happens very slowly, and in many cases, it causes a constant flow of pollution into the environment. So plastics break down in the environment. They create micro and nanoplastic particles as they break down. They're shedding plastic particles as water and sunlight hit them and stuff in the soil starts to break them down. What's happening is these things are slowly cracking and breaking off of the plastic polymer backbone, right? So it's like you think of plastic as one big molecule that slowly is shedding pieces of that molecule, right? Chemicals also leach off the plastic and get into the environment, and this means that plastic is constantly shedding pollution. One of the last things that we want to do is put plastic into a landfill. We have to change plastic production. You know how we always hear these news items about, oh, they came out with a plastic, and it's 89% recyclable or whatever. We're not seeing anything change fast enough because money and attention aren't being put into it, but also these things are probably not scaling up. The technologies aren't able to make it to the big games because they just don't work when we try to make them happen on the level of soda bottles, you know what I mean? So the researchers say that plastic adds stress to natural environments. It can increase climate change because it disrupts the global carbon pump, right, which is basically the reabsorption of carbon back into trees and everything. It contributes to biodiversity loss, and as it goes on to damage animal habitats, it's dramatically affecting many different species. So we have animals dying because of plastic and suffering because of plastic, and we have the leaching of chemicals into the environment is slowly choking our world.

C: Don't forget that you're eating those things. The things that are the lowest on the food chain are either absorbing the chemical toxins from the plastic, or like you said, they're physically eating microplastics. And then bigger things are eating them, and bigger things are eating them, and then we're eating those bigger things.

J: Because of my research on this item, and it's kind of like a light went on with me reading this and learning more about this. I've heard Cara talk about it a million times. We've all talked about it on the show before. But I did. I had that click happen. I am disgusted with the amount of plastic that I'm surrounded by right now. I like plastic. It's a really cool medium. It's very-

C: Oh, and it's necessary. It's necessary for medical purposes. There are places in our life where like, thank goodness for plastic, but we don't need to be drinking soda out of plastic.

J: Right. Every time you throw away a piece of plastic, analyse it. Like, where did this come from? I have things that will let... Look, right now I'm picking up... I have one of those like grip enhancer things. I was using it when I got my carpal tunnel surgery. I pulled it out. I've had this thing for 30 years. I've owned that piece of plastic for a very long time, and it's held up, and it's great. It's the ones that we throw away. It's drinking a whole bottle of water, and then you squish it down into nothing, and you throw it in the garbage. You don't think about it. Or you put it in your recycling bin as if. But no.

E: Commonly referred to as the single-use plastic. Very bad.

J: So please do me a favour and just think about it.

C: Well, and the truth is, you're right, Jay, because if we... It's frustrating. It shouldn't have to start with us. That's the part that pisses me off. It shouldn't have to start with us, but the truth of the matter is, it does. That's the way our system is structured. So knowing that it starts with us, two things happen downstream. Number one is, we physically put less plastic into the system. But number two is, the companies don't sell as much. And when they're no longer selling it, they're going to stop producing it. As long as they feel like there's not a market for their product because we choose to vote with our dollar, we're going to affect change. But again, that comes back to that really, really entrenched problem, which is that it is a privilege to be able to vote with your dollar.

J: Yeah. That's right. Yeah. Let's move on, Steve, because I'm just going to keep getting pissed off here.

C: It's just raging over here.

E: Yeah.

C: For good reason.

Balloon Telescope (34:55)[edit]

• SuperBIT: A low-cost, balloon-borne telescope to rival Hubble^[2]

S: All right. Bob, tell us about a balloon telescope that's going to rival the Hubble.

E: What?

B: Yes. Yes. Basically stole my thunder from the entire first part. But yes, the famous HST, the Hubble Space Telescope, may be on the way out, but a cheap and in many ways better alternative is being tested, and it's called Superbit. And as Steve said, it's carried by a balloon, a balloon. So this new kind of astronomical telescope is a result of a team up between Durham, Toronto and Princeton Universities and NASA and the Canadian Space Energy. So Superbit. What is a Superbit? It stands for Super Pressure Balloon Born Imaging Telescope. It's essentially it's an imaging system lofted 40 kilometers into the stratosphere by a helium balloon. It will get high resolution images rivaling those of Hubble, which is saying something. So just let that simmer for a second in your brain. Hubble like images, but just using a balloon instead of a rocket. Hubble, of course, is the current standard, right? Primarily because it's in space, which is an awesome place to be for a lot of astronomy.

C: I thought you were going to say primarily because James Webb still hasn't lost.

E: Any day now.

B: No, but actually, well, you will see that that's not technically correct. But that's because why? Why is it such a good place to be for astronomy? And that's because our atmosphere sucks in a lot of ways. Imagine visible light from a distant exoplanet or star or a whole galaxy, that light travels for years, millions of years, billions of years. And that light is essentially pristine for for all that time. And then, bam, the last one point six thousandths of a second as the light goes through our atmosphere and it turns into a huge, distorted mess, the last little bit, it gets completely screwed up. So that's basically just a goofy way to say that, yes, observing lots of frequencies of electromagnetic radiation from orbit is great because the atmosphere doesn't you just bypassing the atmosphere, atmospheric distortion. So it's great. It's fantastic. That's why everybody loves the Hubble. And that's why lots of observatories are on mountaintops, right? I mean, all the good ones are on these great, great mountaintops. Jay, you were really close to a bunch of them in Hawaii. And because that gets it up, that gets them above as much of the atmosphere as possible. So what Superbit with a special balloon is allowing to happen, it's like putting the telescope on a 40 kilometre high mountain. That's pretty much exactly what it's doing, putting it about as high as you can get and still be kind of like technically in the atmosphere. Now it's called a super pressure balloon because of advances in in material science. Cara, I know you'd love to hear that. Another advance in material science that's having some amazing impacts. So and essentially it has a lot to do with the stitching and it does not lose pressure. So it's basically allowing it to stay aloft, not for the typical three days, but for three months. And that's where you can do some real science. If you're three days is not enough, I don't care how well you can see up into space. Three months is where you can get some really good stuff done. Now this balloon is is big. Even when it's deflated, it's about as big as a couple of buses on the ground. But by the time this thing floats up to 35 to 40 kilometres in the stratosphere, which is above, say, more than 99 percent of the Earth's atmosphere, it grows to half a half a million cubic meters, which is the size of a small football stadium, apparently. A small football stadium. This thing is it gets gargantuan and it needs to be because you're hauling up a lot of mass there. But as cool as that is, though, the balloon is wonderful technically, but it's still just a balloon. The real business end and the real technology is what's hanging under the hook under the balloon on the hook. And my first thought, maybe you guys had this, my first thought when I was thinking about a balloon holding something like a a telescope, a big half a meter telescope. I mean, how do you stop this thing from swinging it back? How do you get a stable image off of something like that in the in the stratosphere? I mean, way up high. You know, what's the atmosphere like? I mean, there's no real weather up there. It's kind of it's got to be stable and kind of above. Well, actually, actually, they they weren't sure how stable it would be, because I don't think there's been a lot of studies in the stratosphere of like what's what did you know? What's the air? What's the wind like? What's going on right there? At least that's what one of the scientists was said. So it's actually more stable than they than they had thought it would be. But still, that apparatus still swung back and forth like a pendulum. And what they found was that when it went up there, that it's it's it's swung about an arc minute, which is one sixtieth of a degree. And that doesn't sound too bad. You know, a sixtieth of one degree, that's kind of tiny, right? But that's actually a deal breaker in terms of blur. You can't you can't do good, much to good astronomy if you're if you're swinging a sixtieth of a degree. So they added passive dampening on the hooks, right? So the movement that's transferred from the balloon to the hook would not be transferred down to the observatory below. So that's kind of like low hanging fruit. Yeah, let's put a dampener on that hook. So it's not transferring any of that swing. But then they added gyroscopes and frameless motors. So essentially what it's doing is that if it swings a little bit to the left, then it actually looks a little bit to the right and vice versa. If it swings a little bit to the right, it looks a little bit to the left to counter that. And when they when they did that, it brought the swing down from an arc minute to an arc second RMS. RMS apparently stands for residual pointing stability. I think it might stand for residual movement stability because it doesn't match the initialism. But that's what the scientists said. So I'm going to go with residual pointing stability. So so that's still that's really good, right? An arc second. That's a sixtieth of an arc minute or one thirty six hundredths of a degree. That's small enough. No, it's not small enough. It's really tiny, but it's still they need to go down another notch. So for that, to prevent even that tiny little swing, they use adaptive optics. We talked about that in the past, but in this specific case, adaptive optics. So this uses a fast tilt mirror, which essentially keeps target on a guide star. And so it stays locked on that guide star and it makes corrections based based on that. If it moves a little bit, it makes a correction back. And when they did that with the adaptive optics, they brought it down to 50 milli arc seconds. Super, super tiny. And finally, that was that was good enough. And that was well within the diffraction limit, which means that for that specific half a meter lens, any smaller swinging wouldn't have made any difference. It wouldn't have been able to discern it. So for that mirror, that was that was as good it was going to get. Only if they had a bigger lens would they need something that was even more stabilized. And that probably will come in the future. But the thing that makes me most excited about this is the advantages of this system. And they might not be obvious. But then when you hear about them, you're like, oh, damn, yeah, this makes so much sense. So first advantage, number one, super bit costs five million USD or three point six two million pounds, a lot cheaper. That's a thousand times less than a similar satellite, three orders of magnitude cheaper. Balloons are cheaper than rocket fuel, right? Who would have guessed? So so that level, that level of cheapness makes it possible to have a fleet of space telescopes. You could make a fleet of them that could offer time to astronomers all over the world. It's amazing just to think about that. Besides being cheap, the second advantage is a really big one. This is the ability to return the payload to return the observatory to Earth and fix it and tweak it as often as you want. So try to think about doing that with a satellite satellites really, really, really wait one, two, three. I'll give you these three release. They really, really, really need to work the first time because because of that, that makes them very, very expensive because you got to add redundancy. You got to add safeguards. You got to even throw in meatball sometimes. It has to work because if you don't survive space, if you don't survive the launch and if you don't survive in space, no one's going to go in for a house call. It's not like your Hubble was the exception that that proved the rule. No satellites get a house call. If it's screwed up in orbit, it's screwed up forever, essentially. So they've got to make it work. But you don't need to do that. You don't need to do that for this. And you have to remember with satellites, you have to lock down that design years before launch. That's standard practice. You know, you make jokes about, oh yeah, remember that satellites got technology from the from the 1990s. That's like a classic joke because you got to lock down technology well before it launches. So that's why anything that's in orbit or on Mars right now is already way out of date. Even before it was launched, it was already out of date because that's just how it works. So Superbit never needs to do that. It never needs to be obsolete because after a mission aloft, if it's up for a month or even three months, it comes down by parachute and then you could just upgrade the shit out of it and then put it back up. You know, that's that's just how it works. So for example, we modern digital cameras, we know that they improve every year, right? Every new phone that you get, even if it's every year, is a much better camera. So for example, the development team for Superbit, they actually bought this cutting edge camera and used it for a test flight three weeks before the launch. Three weeks. You will never do that for any anything that's going to go into orbit or anything that's going to go onto a planet. It just doesn't happen. Even even more dramatic, the day of a launch, the morning it was going to launch for a test, the Superbit, they got a GoPro, a GoPro camera, and they gaffer taped it on onto the thing just like, yeah, let's just tape this on and to see what it can record. Yeah, let's do that. No way is that done with satellites, I guarantee you that doesn't happen. To me, that's a huge advantage. You can just over the years, it's steadily improve it and you will always be cutting edge instead of- Hubble is great, but it is like decades out of out of date in terms of having good technology. This technology is much better than even what Hubble already already has. All right, so the last advantage of Superbit over space observatories, I will call the coming optical graveyard. The Hubble telescope is clearly near the end of its life, right? You can hear that you can hear the death rattle, right? Because just it was out of action for a month just just recently for one whole month. It's like, sorry-

S: They got it back.

B: I know. Let me finish the sentence.

J: Bob, why do you hate the Hubble?

B: That's why I said, yeah, it was out of action for a month. They got it back. I think that what they did was they tried turning it on and off again. I think that's what did it.

C: That's amazing.

B: They had to back up the IT.

E: They had this thing switched to evil.

B: Evil. So the payload computer failed. They got it going. It took a whole month. But the Hubble is never going to be repaired again. They could do some troubleshooting from the ground. But clearly its days are numbered. All right. That's a given. It's sad. But hey, that's just that's just a fact. The problem is when the Hubble telescope finally dies, could be tomorrow, could be next year. We don't know. But when that happens, we will no longer have a space telescope with high res optical and UV imaging. It's gone.

E: What?

B: It's going to be gone. All of the future missions that you talk about, Jack Webb the Webb, all the other ones that you've heard about.

C: James.

E: Jack Webb was from Dragon.

S: Yeah. James Webb.

B: I love that guy. I love that guy. Just the facts, man.

E: I love it.

B: Now listen. So Webb, Webb is going to be great, but it's infrared only. It's not. It's not optical. It's not UV.

J: Bob, why do you hate the Webb?

B: Other telescopes that are going to go up, they're infrared as well. Or at the very least, they're not optical or they're not UV. So there's going to be whole fields of astronomers that are going to be screwed. It's going to be like, sorry, nothing new for you for a while. Now that Hubble's dead, you're not going to get anything new in your field for a long time. So that niche can be filled by super bit. And I think it will definitely be filled because if you don't know why it will definitely be filled, just rewind for about seven minutes and listen again. And hopefully it'll be clearer the second time. Seems pretty obvious. So in the future, a super bit is scheduled to launch a long duration balloon mission from Wanaka, New Zealand in April, this coming April. It's going to circumnavigate the earth a few times. It's going to image at night. It's going to recharge during the day. And hopefully it goes really well, well enough to warrant putting that putting this thing full steam ahead. And they're already talking about they have funding for an upgrade. They already have the funding for an upgrade. They want to bring it from point five meters aperture to one point five meters. And that upgrade will actually make it better than a Hubble in many respects and light gathering and megapixels, this and that. It's going to be clearly superior to Hubble when they go to one point five meters. And the balloons that they have now can actually go to two meter, two meter class. And NASA is actually encouraging the team to submit a proposal for a two meter class observatory. But that's the limit of the current balloons. But as you know, the balloon technology, I'm sure we'll be getting better and maybe we can get to two and a half meter observatories and even then be some amazing, amazing astronomy going on better than far better than than what Hubble has done ever. But what I find really exciting about this is that I think we're going to see a time within the next decade where you're going to have scores of universities launching not their own Hubble Space Telescopes into orbit. What we are going to see, I think, within 10 years are these universities with their university budget launching this these superpressure balloons and observatories into the stratosphere and doing Hubble class work for much cheaper. I mean, imagine 20, 30, 40 universities having each having their own essentially own Hubble. It's great. I think it's great to imagine. And I think it seems like a no brainer. Now, I've been wrong in the past, but I think this this is going to absolutely take off. This is just too much of a no brainer. And hopefully the next April mission in Wanaka, New Zealand, does very well. And it'll be even clearer that, yeah, we got to go this route. I just didn't even see this coming. So cool.

J: And Bob, maybe Jeff Bezos can wave to the balloon the next time he's flying in his space penis.

B: Yeah, right.

C: Space penis.

J: I mean, seriously, it looks like a penis. What the hell?

C: It looks like a penis.

E: We'll come to that later.

J: We will come to that, Evan?

C: No one disagrees with you.

S: All right, let's move on.

AI Creativity (49:22)[edit]

• Teaching AI Imagination^[3]

S: I've got a artificial intelligence related news item. This is a study where they tried to teach AI creativity. Now this is not like human level creativity, of course, but they're trying to do, which I think is common among as they're developing and advancing narrow AI, right? Artificial intelligence that is not like a general AI that is self-aware or anything like that, but is able to do things like beat experts at chess or go and drive your car, et cetera. Part of the process of that is to try to deconstruct or reverse engineer the mental cognitive processes that humans go through in doing the similar kind of task. It doesn't mean the AI has to do it in the same way, but if they could understand the milestones along the way, then maybe they can build towards that same kind of functionality. So that's what they're doing now with creativity. What do we mean by creativity? So that's, again, that's part of it. What do we actually mean by it? What is actually happening? So in this concept of creativity something that humans are very good at, and that is being able to categorize things and then extrapolate within that category. So let me give you an example of what I mean. Let's say a young child has seen several different kinds of dogs in their life, right? And then you introduce them to a new breed of dog that looks nothing like any other dog they've ever seen. They will instantly know that it's a doggie, right? You show a kid that knows Newfoundlands and German shepherds, a chihuahua, they'll go to the chihuahua and they'll go, a puppy. They know it's a puppy. It looks nothing like a German shepherd, but somehow they get this idea that this is all part of the same category, right?

E: Sure.

B: Right.

S: So that's something that humans are very, very good at. But creativity also involves being able to disentangle, disentangle the pieces of what goes into that category, and then alter those variables individually, right?

C: That's a good way to put it.

S: Yeah.

C: I always thought of it as like a way to be outside of the box, but still with the constraints, like you have to know the box.

S: Yes.

C: You have to be able to operate outside of the box, because if you go too far outside of the box, it's no longer creative. It's like this test that we do in psychology of creativity, where we go, it's like, to young kids, it's like, what can you make with this paperclip and this whatever? And it's like, is it really creative if they go, it's an airplane, and you're like, that's not a freaking airplane. Like, that's not, what are you talking, that's not creativity. But if they literally can make it into something, that's there's a point where it goes too far.

S: Yeah. Right.

B: If you go too far outside the box all you end up saying, it's what's in the box.

E: It becomes too abstract, right?

C: Yeah, exactly. Yeah.

S: So, let's do another example. Like if I say, imagine a red Corvette, right? Got an image of that in your head now. Imagine a blue Corvette. Like you could flip the red to blue mentally, even if you've never seen a blue Corvette before in your life, you could take your knowledge of the colour blue and apply it to a specific item. But also it would be like, all right, think about a car that's not a Corvette. You can think about something that's within the same category that has all the same pieces, but you could very them, you could extrapolate from that and still be within the category of a car. The AI would need to identify category by looking at examples. And then be able to disentangle specific elements of that category and then be able to extrapolate to new combinations of those elements. So that's what they were seeing if they could have AI do.

B: It's just a matter of a lot of training. There's a lot of deep learning training with thousands of images of what you want, I'm sure it's kind of what they did.

S: Yeah, but there was a difference. So it was a neural network, and it was with training. But instead of doing one item at a time, they did multiple items at a time. And what the AI was doing was looking for all the similarities among multiple items, not just this is an example of this category. These are all examples of this category and processing that in a different way than previous AI. Does that make sense?

B: Interesting. Hmm.

S: Yeah. So they call this controllable disentangled representation learning, that process.

E: Oh, gosh.

S: Controllable disentangled. It's just an initialism, right, Bob?

C: Very creative title.

S: Yeah, yeah, yeah.

E: Always check with Bob on these things.

S: And then the next step was, again, to create a new image with the disentangled pieces of the previous category. And they called that controllable novel image synthesis. Again, very creative. And they were successful. So, like, for example, you trained the AI on different transformers, like the cartoon, the transformers. And they said, all right, now give me a yellow one in Times Square. And the AI was able to do that. So this is not that impressive, honestly. It's kind of a proof of concept. t was just like, did it do what they wanted it to do? Yes, they were able to apply details to a category and combine it with other elements. When I wrote about this, I said, I'll be impressed when the AI can create a novel transformer that we still recognize as a transformer.

B: Oh, it didn't even do that?

S: No, no. It just changed its colour and its location. So, again, this is kind of a proof of concept of these processes the disentanglement and then the novel image creation. So it did that successfully. Again, very incremental, very, very incremental. But what I found interesting about it is that this is part of this bigger program to reverse engineer creativity, to try to understand, like, operationally, what is it? Because we tend to think about these processes, these subconscious processes as magic, right? It's like this black box. It by definition happens subconsciously. So you're not aware of all the individual steps that are that are happening. It just happens like you just think of something. I'm sure we've all been engaged in creative process. And sometimes ideas will occur to you. You don't know how that idea popped into your consciousness. You don't – you're not aware of what was happening in the background. But, of course, if you're trying to design an AI, it's all about what's happening in the background, right?

B: Right. I wonder what it would be like if we could peer in there and see what was happening in the background. Would that, like, just short circuit the entire process by like when you try to think something out that you've memorized and you're like you can't – you can't decompose it into separate steps. Because then you just lose track because it's a habit. Because I've come across, like, AIs in short stories. And the AI or the digital human comes up with this thing. It's like, wait, how did I think of that? And then they look into their mind and they trace it back to see where that thought came from. And they're like, oh, that's why I thought that. It's like, wait, what would that even be like?

C: Bob, it's weird because the thing that comes up in my mind with this, like, creative processing that you're talking about. And then, like, applying metacognition to it is almost like the yips. Like, I think about what happens when a sports person, like an athlete, like loses flow and starts to think too hard instead of being in it. And then it actually starts to make them not as good at their sport. And they get the yips. It's like a weird thing where deconstructing something that feels like a flow state might actually undo the flow.

S: Well, neurologically, that's because our brain's hierarchical, right? So when you first do something, you're engaging your conscious cortical processing. It's very—

C: Yeah, it's very frontal.

S: Very processing intensive, very hard to do. But then the way your brain—one of the ways in which your brain learns is that it automates the components of it.

B: Right. Internalizes it, basically. So it goes from conscious to subconscious.

C: That's why we practice.

S: Yes. Then you don't have to think about it. It just happens automatically. But if you start to think about it too much, then you interfere with that because obviously the conscious stuff is hierarchically above the subconscious stuff. It's like you breathe without thinking about it, but you can control your breathing if you do think about it, right? It's like you're interfering with your breathing.

C: It's super weird when after the doctor listens to your chest with his stethoscope, he goes, okay, now breathe normally. And you're like, don't know how.

B: What do I do with my hands?

C: Yeah, exactly.

S: So obviously one interesting question is how far will this go, right? How far will this attempt at reverse engineering creativity in narrow AI be able to go? Personally, I think there's no reason why it can't completely duplicate human creativity. Again, it won't necessarily need to do it in the same way that our brains do it. It just needs to duplicate the output. And in fact, there's no reason to think that it won't be eventually better than human brains are doing it.

B: Absolutely.

C: Right, yeah.

S: So far, everything we thought—and this is one of the history of our thinking about artificial intelligence— is all along the way we falsely assumed that an AI would need to have a general intelligence in order to be able to do something. Like going all the way back to chess, which is probably the first time this really came up. It's like, okay, well, in order to teach a computer how to play chess, it's got to understand how to think like a chess master. And that would require a massive level of intelligence that computers don't have. And so they'll never be able to beat a human in chess. And then we realized, no, you don't need to be able to think like a human. You can do it in a completely different way with narrow AI. And then this, okay, well, all right, now narrow AI can beat any chess master at chess, but not Go. That's way too complicated. You could just like—every time you make a move in chess, there's like 20 options. Every time you make a move in Go, there's like 200 options. And it's just literally an order of magnitude more difficult.

B: Right, it's too complex.

S: And now, recently, one of the World Go champions resigned. He said, I can't beat the AI. It's like there's no point in me existing anymore.

C: Oh, how sad.

S: He quit the game.

C: But how sad to like quit because of the computer. It's like, imagine what it was like to be one of those human computers who's like doing all the calculations. And then all of a sudden, you just push a button and like everything you did is like— And like, I don't know. I don't feel like—I mean, it must have been hard. Like, oh, gosh, am I out of a job? But at the same time, I don't think I would feel like, oh, my life's work doesn't matter. Like I'm still better than every other human being on the planet.

B: You can still celebrate human excellence. It's like I'm not going to be a runner anymore because of cars. Like, oh why?

C: Yeah, thank you. Bob, that was a way better example.

S: All right. But here's the deeper philosophical question. How far will this go?

B: All the way.

S: So far, I think it will, too. So far, narrow AI has been able to do anything that we tried to get it to do as long as—

C: Anything I can do.

B: I can do better.

S: Invested the time to develop it, right? And all predictions that narrow AI will never be able to do this have been proven wrong. So let's say that that pattern holds out and that essentially every single thing that human consciousness does can be replicated with narrow AI. Language conversation, pattern recognition.

C: What about reflection on consciousness?

S: So, well, all right. I have to say other than self-awareness itself.

C: Right. And that requires a certain level of metacognition that like a reflective quality that it's fundamental to consciousness.

B: Yeah, human level consciousness.

S: You're getting to like one level beyond where the next step I'm going to go. So first of all, could we have a sophisticated multifunctional narrow AI set of subroutines that duplicates everything that a human conscious does? So it essentially would be able to, to all appearances, be a human being, a human intelligence with zero self-awareness. Like is that going to be possible?

B: Like a P-zombie?

S: Like a P-zombie.

C: It'll be possible within—my hope at least is that it'll be possible within an application, like an assistant at work. That you'll have an AI assistant at work who can do all of the work functions that a human being could do and be a very good executive assistant.

S: But what? But not what?

C: It wouldn't then be able to be translated to be also a domestic partner or a—I don't know. I feel like—

S: No, I'm saying you could do everything. You could do anything a person could do. It has every capability that a person has. It's indistinguishable from a conscious human being, but it's just a bunch of narrow AI subroutines.

C: A bunch of narrow AI clustered together.

S: Yes.

C: Now we can't tell the difference kind of between narrow AI and what's the other one called?

S: General AI.

C: General AI.

S: Yes.

C: So that's—you're asking a Turing test question, right?

S: Yes. Yeah.

C: Like ultimately.

S: Sort of.

C: Because it's really—does it matter that it's capable of X, Y, and Z or does it matter that it passes to us as being capable of X, Y, and Z?

S: Again, we brought this up before too. It's like will it be self-aware and how would we know? If you could replicate a general AI with just narrow AI, how would we ever—unless you're the programmer who knows exactly how it works—how would we really know if it had any kind of experience of its own existence? And let's say, Cara, that we throw in a narrow AI subroutine that is self-reflective, that monitors its own internal state, that communicates among the different subroutines and—

C: So then it sounds like it has feelings.

S: Closes the loop on perception and output and all that stuff. Essentially—and so this is a philosophical question and I'm sort of answering my own question here. But, for example, Daniel Dennett says—and I tend to agree with him—when you solve all of the easy problems of consciousness, you have solved the hard problem. And now I'm just translating that into AI. If you solve all of the narrow AI problems, you've basically solved the general AI problem. Are those two things analogous? That's fascinating.

C: In a way, though, is that then saying that the gestalt—sort of the gestalt conceptualization doesn't apply? That the sum is not greater than the whole of the—or the whole is not greater than the sum of the parts? Because if we sum the parts, we get the whole.

S: Yeah, that's what I'm saying.

C: Yeah, and I tend to not agree with that, but the question is, does it even matter? Is it a moot point? Because I do think we'll get to a place where we'll have enough narrow AI that human beings are fooled into thinking.

B: Right.

S: Totally.

C: That it's conscious.

B: I could see that, but I could also see—don't forget, don't discount the possibility of once you're having all this complexity in one place, that there could be some emergent behavior that's completely unanticipated. Something like self-awareness, sentience, sapience, all that.

C: You're right, and then that solves both problems. It answers Daniel Dennett and the gestalt.