Stuff You Should Know - Selects: Will We Find Evidence of Aliens by Their Engineering Projects?
Episode Date: October 23, 2021In 1960 physicist Freeman Dyson suggested that in the hunt for alien life, we should search for evidence of massive engineering projects that encapsulate stars with solar arrays to harness their energ...y. Could we humans ever make one ourselves? Find out in this classic episode. Learn more about your ad-choices at https://www.iheartpodcastnetwork.comSee omnystudio.com/listener for privacy information.
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Hey, I'm Lance Bass, host of the new iHeart podcast Frosted Tips with Lance Bass.
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I'm Munga Chauticular and it turns out astrology is way more widespread than any of us want to
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Hey everybody, it's your old pal Josh and for this week's Select, I invite you to listen to our
ridiculously interesting episode on Dyson Spheres. It's a really cool look at how we'll start
harnessing energy in the solar system in the future and eventually from the universe as a whole.
And when we do, stand back. I hope you find this one as interesting as Chuck and I did,
so giddy up and enjoy. Welcome to Stuff You Should Know, a production of iHeart Radio.
Hey and welcome to the podcast. I'm Josh Clark and there's Charles W. Chuck Bryant and Jerry's
over there. They're foot on the button and that means this is Stuff You Should Know, the podcast.
The foot on the button. Just waiting to cut us off. Yeah, that's what no one knows but Jerry has
a kill switch at her foot for all of our profane tirades. Yeah, it would kill us if she ever pressed
it. That's right. That's why they call it that. But she's not very good at it, I've noticed. I've
noticed too. Some stuff slips by. Yeah, I told her she's like Keith Richards of podcast producers
because he can't use guitar pedals. So he's known for that? Is that a thing? Well, I mean, I don't
know how known he is, maybe among guitar players, but he just plugs right into the amp. That's pretty
great. Oh, I see. And he was on Mark Marin's podcast. It was a great interview and Marin,
you know, it's pure Keith Richards and he was just basically like, you know, I have a hard time
standing upright. Like I can't mess with trying to press foot pedals. That's Keith, man. Yep,
very pure. Yeah. And by pure, I mean. Pure heroin. Yeah. Pure China. Yeah, he's clean now, but. Is
he really? That's astounding. Well, I mean, no, I mean, he doesn't do like hard drugs anymore.
Yeah, I got you. I think he drinks and smokes weed. I got you. But it's clean. Come on. Yeah,
that's like pristine. Actually, Marin smoked his first cigarette in a decade in that show with him.
Oh, that was smart. That was a good decision. He was like, I have to. How can I not?
Yeah, he easily could not have done that. I'm disappointed. Did he really? Yeah,
Keith Richards offered him a smoke and he was like, sure. Yeah, I mean, I see that,
but at the same time, I also see not smoking. Listen to you. I know, I'm being judgy. Wagon
your finger. So, Chuck. Yes. Have you ever used energy? Yes. Well, you know, when you're using
energy, most likely you're using something like a fossil fuel, right? Yeah, right. Like gasoline
or natural gas or something like that, stuff that comes from decomposing dinosaurs. Yes.
Okay. The problem with using decomposing dinosaurs, as most people know, is that it's
essentially a non-renewable resource. There's no more dinosaurs to decompose any longer. And
even if there were, it would take tens of millions of years for them to decompose
into fossil fuels for us, right? Right. Even if we could, even if we had dino DNA,
right? And we could make new dinosaurs just to kill them and watch them decompose.
Which is something we would do if we had the capability, I guarantee it. Oh, sure.
Right. But we don't have that capability. And as far as I know, like no one's working on that
track right now, I don't think. Just Steven Spielberg. Right. Maybe someone at Rutgers.
So we have to come up with energy sources that we won't eventually run out of. And obviously,
there's like wind and solar. And as far as solar power goes, from what I understand,
we're actually doing pretty well right now. Like right now, we use something like 0.01%
of the sunlight that reaches earth to power our world. So there's a lot of room for growth
potential. Sure. The thing is, is I also saw that if we keep growing and our energy consumption
keeps growing at something like 1% a year, within a thousand years, we'll be using more than the
entire amount of sunlight that hits the earth can provide. So we really need to come up with
something else. Yes. The problem is, is even if we harnessed all of the energy here on earth,
earth, we would very quickly outgrow whatever energy it provided. So some people have said,
well, why don't we just go straight to the source? If the sun is such a great source of energy,
but it's shooting that energy out in directions other than the earth, the stuff that is starting
toward the earth doesn't make it very frequently. Let's just go to the sun and basically strangle
the life out of it to get energy from it, right? Great idea. And one of the first proposals of it,
I don't want to say a serious proposal because although it's been taken seriously over the years
and almost been interpreted like scripture, it was a thought experiment to begin with.
It's something called a Dyson sphere. Yes. Well, I guess we should introduce the man,
not that we have him here. That'd be awesome. He's still around. Yeah, I know. He's an old dude.
But we're talking about Freeman Dyson, not to the maker of the vacuum cleaner or the
bladeless fan. Or the bladeless hairdryer. Is that really a thing? They have a Dyson hairdryer?
Yeah. You know what, I was so disappointed when I found out what the bladeless fan was.
Why? Have you seen those? Yeah, you can stick your hand through it. It's amazing. Well,
I know. And I was like, is it magic? Like how in the world is it doing this? But it's got a stupid
blade. It's just housed in a casing. Yeah, so that is a terrible name for it. And then it just channels
it up and squirts it out the front. The Dyson invention that always got me was the air blade
hand dryer. I think we've talked about this before where you stick your hand down in there.
I love those. Yeah, but they're so filled with germs that actually I was in a bathroom the other
day and they have an air blade now that just blows downward onto your hands. And it's actually,
I'm like, okay, now I'm satisfied with this invention. Well, you know, you're not supposed
to rub your hand on the air blade itself. No, but it's so close. It's like you're playing
operation. Like I'm trying to remove a funny bone or something like that. It's almost impossible
not to hit the sides of the thing, you know? Your big meat hooks are just rubbing all over
every pretty much. It's gross. Yeah, it is gross, believe me, because I walk out just crying with
my hands held in the air every time I go to the bathroom. Well, you and I have a very big thing
about airport bathrooms. And I think I had the worst one of my life at a Boston Logan on our
last tour. Oh yeah, what happened? It was just not up to snuff. Like the, first of all, the door,
and this might have been just this one bathroom, but the doors to the stalls, none of them secured.
They've been ripped clean off. Well, they were there, but you couldn't, you know, the lock
didn't work. It was just, yeah, basically I had to push my hand against it, which grossed me out.
Yeah, no, that's not okay. And then the gap when the door was shut was like
two or three inches big. Like you could fully just look in and say, how are you doing? How's
your poop? Yeah, that's the Mr. Peepers model stall. It's just not acceptable, you know,
in this day and age to not have complete privacy in there. I mean, I agree with you.
I, again, I'm going to reiterate, I think there should be one stall for an entire bathroom so
that no one could possibly sit down next to you, but barring that. One stall to rule them all.
Exactly. But barring that though, like the place, like what we have in our office is acceptable.
It's a good second place. Oh, it's great. There's like a complete wall in between you.
There's a complete wall in front of you and a door that's securely shut. Yeah, it's a water
closet. Oh, yeah, yeah, yeah. I guess, I guess it is like you're fully water flowing there.
Oh man, I knew we were going to get distracted by poop.
Yeah, this isn't even the porta potty episode. I know. All right. So sorry, back to Freeman Dyson,
and not the vacuum maker. He was born in England. He worked most of his career. He's retired now,
but worked most of his career as a physics professor at the Institute for Advanced Study
at Princeton University, not Rutgers. He was a civilian scientist with the RAF in World War II.
Cool. Went to Cambridge, then Cornell for grad school.
This guy's got some bona fides. And then he's been in news recently by being a big,
I mean, brilliant, brilliant man, but he's been in the news recently by being one of the
more prominent scientists on, as a climate change skeptic. Oh, is that right? Yeah,
and not like a complete skeptic. Like he does believe that it's, I believe where,
what is stance is that he does believe that it's manmade, but he doesn't think we have
enough detail about all the variables for these computer-generated models to be accurate.
I see. So he's basically saying like, this is not the end of the world. And in fact,
he thinks that increasing levels of CO2 can be a good thing for humanity, ultimately.
How so? I don't know. I didn't get that far.
He's like, it gives you pretty good buzz. Maybe. I don't know. It's pretty interesting,
though. He's like, I think starting about, you know, six to 10 years ago, really started
making the news with his somewhat controversial, because he's a brilliant man and all these other
scientists are like, wow, he's such a smart guy, but he's so wrong on this. But then other people
are like, no, he's totally right. That's pretty interesting. Anyway, so that's who he is. And
he in 1937, well, not 1937, he in the 1960s was reading a book from 1937 called Star Maker from
science fiction author Olaf Stapledon. And he saw this thing called a light trap from this book.
And this book also had predicted things like virtual reality and it's kind of a
pretty much a landmark sci-fi science book. And he said, hey, this light trap sounds like a good
idea. I'm going to rip it off. Yeah, he did. And he actually, it was, I think, a paper that was
published in science and then journal science in 1960. And it's really short. Did you read it?
Yeah. Yeah, it's like, I think it took up two pages in science out of like a thousand or something
like that in that volume. But he basically said, this would be a great thing, as you say, to rip off
for a thought experiment I'm working on, right? Because just very recently, something called
Project Osma had been created. And that was, they started to search the sky for extraterrestrial
intelligence. It was the first city. And they were looking for radio signals, still are. But
Dyson was saying, well, hold on a second, if you're going to start looking for extraterrestrial
beings like signs of intelligent civilizations, you should maybe start looking for these. And
they came to be called Dyson spheres, because he was the first one to popularize it, even though
he got the idea from Olaf. Yeah, he actually said he thought a stapled in sphere was a better name,
but I guess not good enough to actually use it. Right. Yeah. Yeah. He said it once.
Right. Very quietly. Yeah. But so this Dyson sphere, it was originally created as a, again,
a thought experiment. He wasn't, he didn't talk about how to construct it necessarily or anything
like that, although there were some follow-up correspondence after the letter first came out.
But almost immediately, people started thinking about how you would create one of these things,
this Dyson sphere. And the whole point, we should say, basically at its basis, a Dyson sphere
is an engineering project, a mega structure that initially was thought to be basically a hollow
sphere that you built around a star. For example, we would build it around our sun. Right. And the
whole point of this thing is on the inside of this sphere are solar arrays so that all of that
sunlight, like we were talking about earlier, that gets wasted as far as we're concerned,
is captured and converted into usable energy for us. And Freeman Dyson's point was,
if you build one of these things, you're going to capture light. Light won't get out, but infrared
radiation, heat, thermal heat, will escape. And so if you're looking around the skies for aliens,
look for something that has a tremendous amount of like the infrared radiation of a star, but
isn't putting any light out. And maybe you just found an alien civilization. That's how it began,
but people started trying to figure out how to make one of these things almost as soon as he
published that letter. So the one thing I don't get, was he saying that look for this because
other civilizations out there are using a Dyson sphere? He said that it would be likely that
this would be an invention they came up with. Okay. Gotcha. Yeah. All right. Well, let's go.
Should we go to this Nikolai Kardashev real quick? I think we should. I think we can't put it off
any longer. It's pretty interesting. In the 1960s, there was an astrophysicist named Nikolai Kardashev
and he was a Bond villain and actually he wasn't, but he should have been. He had this idea that
there were three classifications of civilization. Type one, which is basically we have learned how
to harness all the energy on the home planet. Like everything you can possibly harness here on
Earth and you would think, well, that's probably us. We're not quite there yet. A really smart dude
named Michio Kaku, not a Bond villain either. He said in the next 100 years or so, maybe 200 years,
we might actually be a type one civilization. Yeah. Like you said, that's where every bit of
geothermal energy, every drop of sunlight, every bit of hydroelectric power, all of that stuff,
every potential bit of energy is being harnessed by us. That's right. Yeah. We're
nowhere near that right now. I think Kaku's assessment's a little rosy. Oh, well.
And I can say that because he was on our TV show. Sort of. Well, he was. Yes, he appeared on,
but we didn't interact with us in any real way. Exactly. He has no idea who we are. No, none.
So type two is the next, of course, and that kind of civilization would understand how to
harness all of the energy, not only on your own home planet, but the energy of a star in its own
solar system. Right. That's where the Dyson sphere comes in. Yeah. That's what we aspire to do one
day. Right. Maybe a million or so years from now. And then type three is just kind of like following
this logical progression. Right. And that's harnessing all the energy of all the galaxies
or of entire galaxies, not necessarily all of them. Yeah. I think the second, the second stage,
the type two civilization would be either the hardest to get to or take the longest to get to.
Right. And that's because when you build that first Dyson sphere, your technology and your
energy efficiency and your productivity is going to just shoot forward exponentially from that point
on. Oh, yes. So once you build that first one, you can start building more and more and more,
much more quickly. So you jump from a type two to a type three civilization pretty,
pretty fast compared to how long it took you to go from a type one to a type two civilization.
Yeah. I think it's like any, any product even that that first one is tough and then you can scale it
and well, we'll get to the robots here soon. Okay. In fact, let's take a break. I'm getting a
little psych chock and we'll talk a little bit more about the sun right after this.
Hey, I'm Lance Bass, host of the new iHeart podcast, Frosted Tips with Lance Bass. The hardest
thing can be knowing who to turn to when questions arise or times get tough or you're at the end
of the road. Okay, I see what you're doing. Do you ever think to yourself, what advice would
Lance Bass and my favorite boy bands give me in this situation? If you do, you've come to the
right place because I'm here to help this. I promise you. Oh, God. Seriously, I swear. And you won't
have to send an SOS because I'll be there for you. Oh, man. And so my husband, Michael, um, hey,
that's me. Yep, we know that Michael and a different hot sexy teen crush boy band are each week to
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bye, bye. Listen to Frosted Tips with Lance Bass on the iHeart radio app, Apple podcast or wherever
you listen to podcasts. I'm Mangesh Atikular and to be honest, I don't believe in astrology,
but from the moment I was born, it's been a part of my life in India. It's like smoking. You might
not smoke, but you're going to get secondhand astrology. And lately, I've been wondering if
the universe has been trying to tell me to stop running and pay attention because maybe there
is magic in the stars if you're willing to look for it. So I rounded up some friends and we dove in
and let me tell you, it got weird fast. Tantric curses, major league baseball teams, canceled
marriages, K-pop. But just when I thought I had a handle on this sweet and curious show about astrology,
my whole world came crashing down. Situation doesn't look good. There is risk to father.
And my whole view on astrology, it changed. Whether you're a skeptic or a believer,
I think your ideas are going to change too. Listen to Skyline Drive and the iHeart Radio app,
Apple Podcast or wherever you get your podcasts.
All right, so I went, when I said the word son.
Yeah, I thought that was odd. No, it's not. You know, I honestly had no idea where you're going
with this. Well, you do. You're being coy. Most people out there, most long-time listeners know
that our son podcast was one of our biggest struggles and would have been our biggest
achievements had we done it right. It's the biggest pity applause we get for the son.
No, no, it was fine. That's what we get. You tried. Yeah, good for you for trying.
But let's talk a little bit about the son. This stuff I can deal with at least.
As far as its immense power and energy. And I love that our own article has some of these
comparisons. The son can generate five times one zero two three horsepower.
I think that that is a typo. I think that it's supposed to be five times 10 to the 23rd power.
Oh, you think? That's the only explanation I have for that. That doesn't make sense. That's
a really small number, actually. Yeah, I agree. It'd be like about 5,100, 5,200 horsepower.
Yeah, that's five times 10 to the 23. It's got to be. Someone just got lazy there.
Seriously. They're like, I don't know how to do the little 23 thing.
Right. I don't know how to use superscript. What am I, like a great editor?
Superscript. That's what it is, right? Superscript and subscript. Right. So let's put it this way.
And this one is the one that cracks me up. The son has enough energy to melt an ice bridge
two miles wide and a mile thick from earth to the sun in a single second.
In a single second. That's pretty good. This is the only article I think I've ever seen
an ellipse in. Like the author was like, wait for it? Yeah. In a single second.
Yeah. I don't even think they did the ellipse right.
Isn't the ellipse supposed to be right after the letter or is it their space?
I think there's supposed to be a space on either side. Oh, really?
Technically, yeah. I've been doing these wrong, then.
Well, don't feel bad. This thing says five times 1,023 horsepower. So it's all good.
All right. What else? One trillion, one megaton bombs going off every second.
If you're warlike. And then finally, one single second of sun action,
whatever that is, is enough to power our earth for a half a million years. That drives it home.
It does. But it also gives you an idea of just how primitive we are energy consumption wise.
Yeah. Like it's crazy because we're really worried about running out of our
non-renewable resources, but we use such a minute amount of energy that the sun
could power the energy use we use currently for half a million years in one second.
Yeah. That's nuts.
Right. So that also kind of takes your mind though, too. And this is, I think, one of the things,
one of the buttons that Freeman Dyson pushed, it makes you realize like, holy cow,
we could do some really amazing stuff if we could capture a significant amount of that power that
the sun puts out. Even an insignificant amount. Yeah, really. Yeah. You keep Iggy Pop going for
like another 100 years. So like you said, the idea behind the Dyson sphere is this structure.
He originally proposed a hollow sphere and kind of referred to it as a shell. But I think now,
or I think he went on to make it a solid sphere.
So he actually said he was really... What's the opposite of clear?
Convoluted?
Take. Yeah, I guess a little convoluted. He didn't really go to the trouble of spelling out
because again, remember, this is a thought experiment that had to do with finding aliens,
not an engineering schematic. So he used some very... It was vague. That was the word I was
looking for. He was using some vague words. We're like, wait, what are you talking about?
What is this sphere? Is it cohesive? Is it like a solid body? Is it hollow in the middle? What's
going on? And he came back and said in a letter, a follow-up, he said, no, no, no, there's no way
you could build something that would go around our sun. That would be a solid body that was hollow
in the middle. It couldn't be a cohesive whole because the rotational forces, the shear forces,
and the gravitational forces acting on it would just obliterate it immediately. It'd just be
mechanically impossible to make it like that. So he said, maybe you would make something like a
bubble or a swarm or something like that. Yeah. And he said, in the letter, I've enclosed some
blotter acid. Put it on your tongue. You're going to love this. It's dynamite. And call me in an hour.
Might make a little more sense. Yeah, our own article points out that one of the first downsides,
obviously, if you surround the sun completely, is that sunlight has... I mean, I know we'd be
harnessing that energy, but sunlight provides a lot more than just energy. Oh yeah, like it makes us
happy. Yeah. People write entire songs about how sunshine makes you happy, like John Denver did.
You know? Uh-huh. And that's just on the shoulders. It would be a global bummer if somebody enclosed
the sun. That's like supervillain kind of stuff, right? Yeah. Okay, so that's a problem. Another
problem though is that if you're going to build something like this and Dyson even suggested
the size of it, he was saying it would need to have a radius. So a radius, not even a diameter,
half of the diameter, a radius that was two times the distance of the earth to the sun. Yeah. So
this thing would be massive, which means that it would also enclose the earth too, right? Yeah.
Like he wasn't proposing you just go up and create this tight ball around the sun. Like it
would be much further spread out and it would actually encompass the earth's orbit within it.
Oh, so it would be like this is mine. It belongs to the earth and no one else
and can get any sun. Yeah, it would block off the stuff outside of two times the distance of
the earth's orbit. So there's a couple planets out there that would get the old screw job.
Yeah. But the ones inside twice the distance of earth's orbit would really benefit from it.
That's very selfish. Yeah. But the other problem is too, Chuck, is I imagine it would,
things would get pretty hot pretty quickly inside this thing. So the earth would be destroyed.
Yes. And to get around this and a lot of people I don't think got it immediately,
he said, well, you just live inside the Dyson sphere, like in the outer shell of it.
Oh, sure. Make it habitable. Yeah. Right. Well, that makes sense. Yeah.
But what you were saying about just the sheer size of it, there literally aren't enough raw
materials on our entire planet to make something this big. In fact, in our entire solar system,
there probably aren't enough raw materials to make a structure like this.
No. And not still try to inhabit it. There's just no way. Yeah.
Some people say though, in Freeman himself, I keep wanting to call him Freeman like that's his
last name, but I just end up sounding like I know him on a first name basis. But he was saying,
you might be able to build something like this by disassembling Jupiter.
Well, that was his suggestion. Oh, really? Yeah. He said, disassemble Jupiter and put it back
together and you could build a Dyson sphere that had the radius twice the distance from
the earth to the sun and make a solar array of it. Must have been some good acid.
Good for him. Yeah. All right. So I think we're both in agreement,
and most people are in agreement that this sphere idea is not at all tangible.
Not as like a cohesive whole, no. Like it just remains in the realm of thought experiment,
so why bother? Oh, well, that's the interesting thing to me. It basically is kind of like,
he meant it as a thought experiment. It's been brought out of the realm of thought
experiments. And yeah, we're in no way shape or form capable of doing this, but a lot of people
have tried to figure out how to do it. And I think it's one of those things that's like, yeah,
it's theoretically possible, but we're just, it's not at our, we're nowhere near that level
of capability right now. Well, I think his other ideas that he came up with though are decent.
Oh, like the swarm and stuff? Well, yeah, I mean, let's get to that. He himself even said
the sphere is probably not very realistic at all. So why don't we do this? Why don't we think of
different machines maybe that are independent of one another that actually circle the sun,
collect this energy, and then beam it back to Earth? Right. So to him, his initial idea was
that sphere. And then what it came to be was that the sphere was like this umbrella term for these
different, slightly more realistic ideas like the swarm or the bubble. Right. So like, what's the
swarm? Well, the swarm, maybe they're in different orbits. And they, like the swarm, he likens it
to bees. Like instead of gathering pollen, they're just around the sun moving around gathering energy
and power. Right. And some of those might be habitable too. Right. And they're like, they're
solar arrays that are satellites that are moving around on independent orbits of one another.
That's right. And if you, and the way that they would make a Dyson sphere is, yeah, there's a
lot of space in between them. But if you step back a few orders of magnitude further back into the
other parts of the galaxy or the universe, it would appear as basically a whole sphere around
the sun. Yeah, sure. So it still falls under that category, right? Yeah, he had to keep that sphere
thing because of branding. He didn't want to lose that. He's like, the genie's out of the bottle.
They're like, you really don't need it to be a sphere. He's like, oh, it's got to be a sphere.
So those satellites are actually, they would be called statites. Well, no, if they were the
bubble, they would be statites. This guy's got it wrong. Oh, really? I thought the solar sales
could be the statites now. So what I saw, the difference between the swarm and the bubble
was that the swarm has the satellites in orbit around the star and they're in their own orbits,
not interacting with each other. Oh, I got you. A bubble is where the satellites are in a fixed
position relative to the star. So those are the statites. Right. So they're just kind of hovering
outside of the star, not in orbit, just kind of hovering instead. And then those are the two,
and then the third are the solar sales, correct? Well, you can make a solar sale,
or you can make any of them with solar sales. And I don't know where that guy got that.
Yeah. Did we do a whole episode on solar sales? Yeah. So, I mean, it makes sense. If you get a
bunch of these solar sales orbiting the sun, you might think that you could harness the power
and send it back to Earth some way. Right, exactly. And you could use that with any of these,
whether it's a bubble, whether it's a swarm, whatever you're doing. And if you, like you said
a second ago, made them habitable, then all of a sudden you have a recipe for survival for the
human race if Earth ever becomes untenable, right? Great. Or we can't terraform Mars. We can go live
on these things. And when we think about living out in space, my brain immediately goes to like the
cramped, tiny tin can conditions of the ISS. These things don't need to be like that. I mean,
if we're creating Dyson spheres, we're going to be advanced enough that we could build some really
lux satellites and statites as solar rays to go hover or orbit around the sun, right? So,
they could be huge, so big in fact that Dyson was saying, this doesn't have to be an engineering
project that's carried out by a central global government that's directing the whole thing,
that as our energy consumption and energy needs continue, nations could take it upon themselves
individually to create these solar cells that are habitable, put them into orbit independently,
and just through the desire to preserve one's own life would make sure that their orbit wasn't
going to intersect with somebody else's orbit who was already up there and just organically
a Dyson sphere in the form of a swarm or a bubble could form on its own just by
self-interested nations developing this technology basically independent of one another.
Wow. I don't know. Guy was, he had some far, far thinking thoughts.
Far thinking.
I don't have those.
Should we take another break?
I think so.
All right, we'll do that and we'll wrap it up a little bit with how to get this energy back
to the home planet.
What advice would Lance Bass and my favorite boy bands give me in this situation?
If you do, you've come to the right place because I'm here to help.
This, I promise you.
Oh, God.
Seriously, I swear.
And you won't have to send an SOS because I'll be there for you.
Oh, man.
And so my husband, Michael.
Um, hey, that's me.
Yep, we know that, Michael.
And a different hot, sexy teen crush boy bander each week to guide you through life step by step.
Oh, not another one.
Kids, relationships, life in general can get messy.
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I'm Mangesh Atikular and to be honest, I don't believe in astrology.
But from the moment I was born, it's been a part of my life.
In India, it's like smoking.
You might not smoke, but you're going to get secondhand astrology.
And lately I've been wondering if the universe has been trying to tell me to stop running and
pay attention because maybe there is magic in the stars if you're willing to look for it.
So I rounded up some friends and we dove in and let me tell you,
it got weird fast.
Tantric curses, Major League Baseball teams, canceled marriages, K-pop.
But just when I thought I had a handle on this sweet and curious show about astrology,
my whole world came crashing down.
Situation doesn't look good.
There is risk to father.
And my whole view on astrology, it changed.
Whether you're a skeptic or a believer, I think your ideas are going to change too.
Listen to Skyline Drive and the I Heart Radio App, Apple Podcast,
or wherever you get your podcasts.
All right, so earlier you talked about dismantling Jupiter with a socket set,
a couple of screwdrivers.
Mercury is another planet that people have talked about as potentially harvesting.
The good thing about Mercury, a couple of things.
One is that it is near the sun.
Yeah, so who needs it already?
Yeah, so it would make it proximity wise.
It makes a little bit of sense.
And I think this Oxford University physicist, Stuart Armstrong, is who proposed this.
And one of the other great things about Mercury is it has a lot of great raw materials,
namely iron, that we could use.
Right, and he actually suggested that we could disassemble Mercury fully in basically what
amounted to a 40-year stretch.
Oh, I thought you were going to say 30 days, I could do it.
Right, exactly.
If a contractor tells you you can take Mercury apart in 30 days, don't trust him.
Agreed.
No, this was in basically four 10-year stretches, combined equals 40 years, obviously.
But I think his point, Armstrong's point, was that you don't have to disassemble Mercury as a
whole and wait until it's fully disassembled to put it together in a Dyson, to start creating
a Dyson sphere.
You can disassemble and then start reassembling as you go.
And once you start getting one bit of it online, it's going to help power and create
better efficiency to harvest and reassemble the rest of Mercury, like we were talking about earlier.
Yeah, and not only that, but you could use that energy.
All of a sudden, there would be super computing, like you've never seen.
Space travel would get faster.
All these technologies that we can't even think about yet would be growing at exponential rates.
Right, and that's the point.
Like, when you're like, well, what would we do with all of this energy every second coming off
of the sun?
Who knows?
We cannot conceive of the stuff we could do with that amount of energy yet.
But I guarantee it's not going to be using like charging our smartphones.
It should be for some pretty neat stuff, I guess.
So the other cool idea is that, holy cow, how many people would have to take part in this kind
of a project, just literally the labor force you would need?
And I think Armstrong is the one who said, well, you could use robots, actually.
And with the same idea that once you get some of these robots going,
if they could self-replicate and build themselves, then you can just kind of sit back and watch the
paint dry on earth.
And all these robots are up there just building themselves and working and working and doing
everything for you.
Exactly.
And that's why that was his, I don't know if it was his point, someone's point along the way,
is that when you start that, when you build that first Dyson sphere, all of a sudden it's just
going to keep going and going and going faster.
It's going to spread at an exponential rate.
So you would go from a Type II civilization to a Type III civilization pretty quickly.
And as a matter of fact, you would also, if this project was carried out by a centralized
government, it would spread so quickly and so far in such a relatively short amount of time,
something like going from that first Dyson sphere to colonizing an entire galaxy in something
like a million years, that even if it was a centralized government involved at the beginning,
they would very quickly lose control of the colonies because they'd be so spread out and
there'd be so many of them that they would just basically become self-sufficient and spread over
the galaxy.
So the reason this is noteworthy is that if you found one Dyson sphere, you would probably
find millions or billions or trillions of them in just one section of the universe, right?
You probably are not going to find just one Dyson sphere.
You're going to find a Dyson galaxy, a Type III civilization.
And that's what they're looking for by sifting through some of these old sky surveys.
And they found a couple of candidates actually in the last year or so, I think.
Oh yeah?
There's a couple of surveys that have found stars and they have typical star names.
One is KIC 8462852, which is a sexy name.
And then the other is EPIC, which I'm pretty sure they call EPIC, 204278916, right?
Wow. And EPIC was discovered by the Kepler spacecraft in 2014.
And the reason these things are noteworthy is because there is some sort of weird transit
pattern where the light dims, I guess randomly, not necessarily on some sort of set schedule
around these stars.
And you would say, well, that's probably just a planet or something coming in between it.
Well, yes, they thought about that already.
And normally a star will dim by about 1% when a planet-sized object comes in between
you, the observer, and that planet.
These things are dipping in the case of KIC star, 22%, and in the case of the EPIC star,
65%. They have no idea what could be massive enough to dim those two stars that much.
They haven't encountered it before.
There's a couple of theories.
One of them said a swarm of comets.
Somebody else said, well, you could very easily go from a swarm of comets to a swarm of solar arrays.
So maybe these are evidence of Dyson spheres.
Yeah.
I mean, it's possible.
Well, it's kind of fun to talk about robots building themselves
and them doing all this work up there.
One of the big problems is we're not nearly...
I mean, we have robot technology now, but nothing close to that at the present.
And as this article points out, that you would need...
It would have to be so advanced, these robots would have to be
operating without fail up there because they would be by themselves.
Or be able to fix themselves and fix problems like the intelligence would need to be so far advanced.
Like we can't even imagine what that would be like.
No, but I mean, even if Michio Kaku's off by 100 or 200 or 500 years, that's not that far off.
Yeah.
Like if we can harness all the energy on Earth, we should very quickly improve as far as
our technology is concerned.
So who knows, maybe those robots aren't that far off, you know?
Yeah.
One other thing that I saw from this, though, was when Freeman Dyson was talking about
disassembling Jupiter, Chuck.
He said that it should take, I don't know, roughly 800 years worth of the Sun's energy output to
disassemble and reassemble Jupiter.
Yeah, well, that's not bad.
But do you remember how much comes out of the Sun in a second?
We're like, whoa, you know, that's so much.
We would need 800 years worth of that to disassemble and reassemble Jupiter.
So we, like not only do we not have the capability of building a Dyson sphere,
we don't even have the capability of disassembling Jupiter.
We just don't have any way to harness that energy, which creates this kind of chicken or egg dilemma.
Like we almost need a Dyson sphere to create a Dyson sphere at this point.
Yeah, somewhere Freeman Dyson is laughing.
On acid.
Somewhere in New Jersey.
One of the other big issues is, okay, let's say that you could even do something like this
and harness this energy.
To get it to Earth is another big problem.
If we want to make it actually usable, some people said we could laser it over.
But the problems with laser beams is after about a mile, you're going to lose a lot of
efficiency with it.
So good luck with that.
Microwaves have been floated out there.
But microwaves, even though they're more effective far further out than lasers,
you're still limited to about 100 miles, which will do us no good.
Right.
So what's the answer?
I don't know.
Yeah, I don't have one either.
I mean, I guess one of the easy ones is, well, just inhabit the solar arrays,
go inhabit the Dyson sphere, stop being so precious about living on Earth.
Yeah, that's true.
Which makes sense, but I like living on Earth.
Yeah, but would an Earth 800 years from now be worth living on?
It depends, Chuck, whether it be skipping, skipping to school and skin and knees and
spelling bees and all that still.
Because if so, then yes.
Yeah, I don't know what you're talking about.
It's another Simpsons reference.
Oh, okay.
It's the one where Principal Skinner came back, the real Principal Skinner.
Oh, yeah, great one.
And he's like, he goes, if you think skin and knees and spelling bees are corny,
well then, Mr. Corn Me Up.
That's right.
That's when they introduced, we'd like to introduce the Principal Skinner,
Principal Skimore Skinner.
Armortanes area.
Yep, that's a great one.
There's one other thing.
You got anything else?
I got nothing else.
I got one more thing.
So there's that whole idea that Dyson came up with to search the skies for this
this imprint where there's a lot of infrared radiation, but no visible light.
Yeah.
There's a problem with that because this guy came along.
His name was Robert Bradbury.
He's a futurist.
I think maybe a science fiction writer.
Ray?
No, Robert, his little little brother.
Yeah.
Yeah.
Robert Bradbury said, well, you know what?
If you really wanted to make these Dyson spheres efficient, you'd make them in the
same manner that those Russian nesting dolls are made, like a matryoshka, right?
Yeah, yeah.
So you'd have the internal sphere and then outer spheres going around it,
catching all that lost heat energy and turning it into usable power,
which is awesome because you'd have basically 100% efficiency as far as the
Dyson sphere was concerned.
But if you're looking at the stars, you would see nothing because not only would
there not be visible light, there also wouldn't be any infrared radiation.
And Freeman Dyson just hung his head, went into his room,
shut the door and laid down on his bed for a while.
The end.
Yeah.
Well, if you want to know more about Dyson spheres, you can start with this
article on howstuffworks.com by typing Dyson sphere into the search bar at
howstuffworks, as I said.
And since I said howstuffworks twice, that means it's time for listener mail.
I'm going to call this, we helped the lady out.
Hey guys, hope this email finds you well.
I've been listening for only a short time, but it becomes so addicted.
I've already binged about half of your episodes offered on Spotify.
I think she meant binged.
We were on Spotify, by the way, and you can bing us all you want from that platform.
Like many others, I absolutely adore your show.
I came across the podcast after a very upsetting event in my life.
Save you the sob story and just say I was going through intense grief.
There was something about your kind voices, strong intellect,
and a raunchy humor that gave me a thirst for learning and a new purpose in life.
Wait a minute, wait a minute.
Wait a minute.
Do we have raunchy humor?
Sure.
I didn't realize that.
Oh, I think she picks up on that.
That's like Cheech and Chong.
The sideways comments.
We're like the new Cheech and Chong.
Thank you a billion times over for just being who you are.
The podcast was a large factor in saving my life.
Don't ever underestimate or doubt what you do and know that there are people like me
out there soaking up every word.
Sincerely, Cheery B.
Thanks a lot, Cheery.
That's nice.
I like hearing that we help people.
It makes me feel good in my belly.
Yeah, we appreciate the compliment.
It's very nice of you to take the time to write in to let us know.
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Tell everybody about my new podcast and make sure to listen.
So we'll never ever have to say bye, bye, bye.
Listen to Frosted Tips with Lance Bass on the iHeart Radio app,
Apple podcast or wherever you listen to podcasts.
I'm Munga Chauticular and it turns out astrology is way more widespread than any of us want to
believe.
You can find in Major League Baseball, International Banks, K-pop groups, even the White House.
But just when I thought I had a handle on this subject,
something completely unbelievable happened to me and my whole view on astrology changed.
Whether you're a skeptic or a believer, give me a few minutes because I think your ideas are
about to change too.
Listen to Skyline Drive on the iHeart Radio app, Apple podcasts or wherever you get your podcasts.