StarTalk Radio - StarTalk Live! at the Beacon: Searching for Life in the Universe (Part 1)
Episode Date: February 17, 2017Neil deGrasse Tyson and Eugene Mirman welcome planetary scientist Carolyn Porco, Sean Ono Lennon, Vanessa Bayer, and Michael Ian Black to search for life in the universe in Part One of our StarTalk Li...ve! show recorded at the Beacon Theatre in NYC.NOTE: StarTalk All-Access subscribers can listen to this entire episode commercial-free. Find out more at https://www.startalkradio.net/startalk-all-access/ Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
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Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
Hello everybody!
Everybody!
Welcome to StarTalk Live!
We have an awesome show for you.
It is my incredible pleasure to bring out your host,
the amazing science communicator and natural wonder,
Neil J. Craig Tyson!
Thank you.
Eugene.
Yes.
Always great to have you here.
Thanks for making us a part of your comedic universe.
Thank you.
So I get to invite the, yes, Eugene Merman.
StarTalk Live first appeared
as part of Eugene Merman's comedy festival.
He organizes groups of comedians,
and they make you laugh,
and he said, let's add a little science
to one of the spots.
And ever since then, StarTalk Live was born.
Yeah.
And it started out at a small bar in Brooklyn,
and now we're like in the Beacon Theater.
So tonight we're going to talk about the exploration of the universe and the search for life in
that exploration and what impact that might have on us philosophically, culturally, religiously,
on our artwork and all that we are and define
ourselves to be as humans.
And let's bring out, oh yeah, she liked that.
So let's bring out one of my scientific guests, a colleague and a friend, in fact a hometown
native, give a very warm welcome to Dr. Carolyn Porco.
Carolyn!
Carolyn.
Carolyn Porco is Carolyn! Carolyn.
Carolyn Porco is a hometown native, she's a planetary scientist,
she was head of the imaging science team of the Cassini mission to Saturn.
If you saw any image of Saturn in the last 15 years, she did it.
And her... she and her team
I call her
Madam Saturn
thank you
thank you
I love that
it is my great pleasure
to bring out
a comedian
wonderful comedian
from Wet Hot American Summer
and many many other things
ladies and gentlemen
he has a new show
called Debate Wars
out on CISO
ladies and gentlemen, he has a new show called Debate Wars out on CISO. Ladies and gentlemen,
Michael Ian Black.
Oh, you know what?
I'm going to go around. I'm going to go around.
Dude.
And from Saturday Night Live
and Trainwreck, ladies and gentlemen, Vanessa Bayer!
Vanessa Bayer!
And rounding this out, we can't do this.
If we're going to talk about art, we need an artist.
If we're going to talk about the impact of science on our lives,
we need somebody who sits at that intersection.
Give a very warm welcome to musician and artist Sean Ono-Lennon.
Sean.
Over there, right?
Dude.
Hey, man.
Thanks for having me.
All right. So let's just get some basic science on the table.
Carolyn, we went to Saturn.
We did indeed.
Did it in an awesome way.
We entered orbit back in 2004.
Four.
And it's been going gangbusters since then.
Yes, it has.
Why go to Saturn?
Oh, wow. Where do to Saturn? Oh, wow.
Where do I begin?
Oh, sorry.
Okay.
I'll be a little more specific.
What were you after?
What did we not know about Saturn that you found out?
Well, let me back up and start at the beginning with the Voyager mission.
Okay.
The Voyager mission, we toured the outer solar system in the 1980s.
And we had two spacecraft encounter Saturn in 1980 and 1981.
And that was really the first time we ever got a glimpse
of what the Saturnian system offered.
So we got to see the surfaces of the satellites,
we got to see the rings in some detail.
And as these things often happen,
you know, it was just a wonderful exploration and journey of discovery and all those accolades you've heard.
But they really leave us with other questions that we'd like to answer.
And so as soon as the Voyager mission was over, everybody was deep into planning the next mission to return to Saturn because that was considered the system, the planetary
system, it is the planetary system that is the most phenomenologically rich.
So it has Titan.
That means it's the most beautiful.
It's also the most beautiful.
It's also the most beautiful.
And I was in the privileged position of being responsible for the images that we returned.
So I just very much wanted to make them beautiful.
Yeah, let's give it up. Yes.
So you couldn't just send Cassini there.
You needed some gravitational help, last I remembered.
So you launch it from Earth, and you don't have enough energy,
enough propulsion to get it there.
So you steal orbital energy from what?
Well, this is a maneuver that was found before going to Voyager.
But if you fly a spacecraft by a planet, let's say, that is already moving,
then depending on how you fly the spacecraft by the planet,
you can actually take a little bit of momentum from that body.
But because the planet is so big and the spacecraft is so small,
you really give a big kick to the spacecraft.
So in order to get to Saturn,
we actually flew around the inner solar system for two years,
kind of parked it there, building up speed.
We flew by Venus twice, the Earth once.
And it never went back in time?
earth once. And it never went back in time?
So you
did a double slingshot around
Venus. Not around,
we just flew by it. Flew by it. Slingshot
Venus and you also slingshot
earth. Yes, we did.
Now did we just get, you just got lucky
that you ended up on Saturn or you had figured all this
out? Look, I'll tell you, if they had left
me in charge of the navigation, we would have
ended up at Uranus. So they do have a group of people. They have a group. Well, anyway,
I'm terrible. I have a terrible sense of direction.
She just referenced Uranus.
I know what she said.
Yeah, yeah. I just want to make that clear. Yeah, okay. But so this is like a three-cushion pool shot off of three planets.
Any more planets on the way up?
Oh, no, no.
Then we went by Jupiter.
And we went by Jupiter, incidentally, on the eve of the year 2001,
which I thought was like so incredibly bitchin'.
Bitchin'?
Yeah.
How many of that says 1963?
Was the thing you sent a Camaro?
You were bitching.
It's a surfer term.
So you slingshot Jupiter, and now you've got enough energy to get to Saturn,
which is twice again as far away as Jupiter is.
Yeah, so it took us another three years to do it.
So it took us seven years in total to cross the solar system.
All right, cool.
And then it gets pulled into orbit, and you've got rings, you've got magnetic fields,
you've got all manner of things going on there.
You know what my favorite?
I have two favorites.
One, you found lightning on Saturn.
We did, yes.
We captured lightning on Saturn.
And is it raining?
What's going on?
Well, it's doing essentially what lightning does here.
It's accompanied by thunder and rain and so on.
These are big convective storms that produce lightning.
Do you have rain on Saturn?
Yeah, we do.
Is it water or some other liquid?
This is in the water clouds, yeah.
The water clouds. But you have other clouds.
If they rained, it wouldn't be rain water.
It would be like rain ammonia or something.
It could be rain ammonia.
I guess that's too deep for us to know much about. We knew about the water clouds. Okay. That'd be like rain ammonia or something, is that right? It could be rain ammonia. I guess that's too deep for us to know much about.
We knew about the water clouds.
Okay.
That'd be weird.
Ammonia rain.
But think how clean your countertops would be.
Clean?
Everything would be clean.
They used to have rain like that in New York.
Disinfected.
Disinfected.
All right, so we got that, and then what freaked me out to this day was this hexagon in Saturn's
South Pole, was it?
North Pole.
North Pole.
A hexagon.
No.
No.
There are no hexagons in the universe.
How did you, what is that?
Okay, so this is, I'm glad you brought this up because every time we released something about the hexagon on our website,
Cyclops.org, our hits went through the roof.
You know, because I think people think this has something to do with crystal energy
and what's a, you know.
Yeah, like a hexagon is a common crystal cross-sectional shape.
Yeah, but it's the straight sides in an atmosphere that really blew people away.
So we've explained over and over and over again that this is just a continuous wave
with just six waves in it.
It's, you know, M number, you know that, wave number?
So we have a wave number six jet stream that encircles Saturn.
It's nothing more than that.
It's very similar to what we have here on the Earth,
except on the Earth it's very discontinuous
because the system, the jet stream,
is traveling over the oceans and hill and dale and so on,
and friction just wears it down.
But on Saturn there is no friction, so it just is continuous.
So is it land?
What were you going to say?
I was just, so it just is continuous. So is it land? So it's
like in my mind
it's like
I'm like picturing the shape that you
learn about, like when you learn about octagon
hexagon
is six-sided. Right, I knew
that.
So and then
there's
water? It's jet streams going between them?
Well, it's a jet stream of air on Saturn, and at that level, I don't know, it's probably hydrogen, mostly hydrogen,
but it's, yeah, it's just a jet stream. It's just very regular because there's nothing to disturb it.
And it's at the bottom?
No, it's in the top of the atmosphere.
It's at the pole.
Got it.
Okay.
So, Carolyn, I just want to comment that you're all calm and casual.
Oh, it's just a hexagon.
Sustained waves.
Don't tell me you didn't freak out when you first saw the hexagon.
Well, we first saw the hexagon with Voyager, and I was very freakable when I was young.
But, you know, by the time...
Why was that funny?
Because if you get your freak on, you know...
So it's just easy in retrospect to say how to explain what you're looking at,
but it seems to me that's a pretty impressive thing to discover on a planet.
That's all.
And you say, well, Earth has it too.
It's just not a hexagon.
But then we don't have it.
Well, okay.
So that's why we went.
You asked why did we go?
That's why we went.
We want to discover all those things that are the same
and are different about our planet
because ultimately we want to learn about process.
And process, the more we learn about process,
about planets, the better custodians of our own planet we can be.
So that's what planetary exploration is all about.
So, yeah, that's good.
Aside from having a really bitchin' time.
All right, so tell me about any questions
you thought you would have answered but didn't get answered.
Oh, well, we still don't know exactly what the mass of Saturn's rings are,
and it's important if you're interested in figuring out how old they are, where they came from, and that whole process. So in fact,
that's what the end of the Cassini mission is aiming to do eventually.
To measure the mass of Saturn's rings, because they're really skinny.
They're really skinny. They're only about 30 feet thick, yet they extend for 280,000 kilometers,
which is about one light second.
It would take light, the fastest thing we know,
one second to travel across the rings.
They would fit in nicely between the Earth and the moon.
And we've discovered so many things in there.
Just let me know when we can start.
I have a question.
Yes, yes, yes, Mike.
Now, I'm going to explain this in layman's terms for the audience.
Saturn's really big.
Really big.
Why are the rings so thin in comparison?
You really want to know the answer to this?
No, I just asked because I felt like I should say something. And just to be clear, they are so thin,
when Saturn is edge on, when they're edge on to us,
they disappear entirely.
Well, not really.
Oh, snap.
Okay, all right.
Let me try that again.
They're so thin, they disappear.
How thin are they?
They disappear mostly.
Mostly.
Fine.
Mostly.
But you wanted to know, okay, it's a real simple physics 101 explanation.
I didn't get that far.
They consist of lots and lots and lots of icy particles, chunks of ice that are like that tiny all the way to the size of small apartment buildings.
And when they collide, which they did in the early days after they formed,
and we think they formed by two satellites colliding with one another,
something like that,
this creates a cloud of debris,
and these particles are in very wild and crazy orbits,
and when they collide, they lose energy but they conserve angular momentum.
This is a process that even has produced the disks of galaxies that we know,
the spiral galaxies which are very thin also compared to their horizontal dimensions.
Does that mean that Earth will eventually have a ring of space junk and debris?
Well, it could.
If we left enough junk up there so that they collided,
that actually would happen, yeah.
And isn't Saturn just like a mini solar system? I mean, in terms of the way our solar system formed,
I mean, can't you make that analogous, the way the disks are?
What's the moon count?
If you want to analogize them to planets,
what's the moon count for Saturn right now?
I've lost track.
It's over 60.
Yeah, it's over 60.
Yeah, it's a lot of moons.
Wait, you don't know how many moons?
I'm sorry, I don't.
Not yet.
Do you know?
Allow me to defend this bit of ignorance.
Thank you.
And we went through a little bit.
A girl can't know everything. You reach a point where the number of something is not as important as what the thing actually is or is about.
Good for you, Neil.
That was brilliant.
Wait, wait, wait.
Brilliant.
That was brilliant.
Sounds like a cop out to me.
You don't have to curse it.
Clap if you want to clap.
Wait.
So when people were taught that there were nine planets in the solar system
and then Pluto got kicked out,
people cried foul because they thought science was about the number.
It ain't got jack to do with the number.
Right.
Wait, but didn't they just find a ninth planet anyway?
And is that why science has since stopped measuring things, Neil?
But hasn't Pluto been replaced?
No, we've only stopped counting.
You've only stopped counting.
But hasn't Pluto been replaced by some, they detected a wobble that might mean there's another planet out there that we didn't know about?
Way out.
Very far.
In the Kuiper Belt.
I just find that so hard to understand that we could have had a planet in our own solar system that we haven't seen yet like it's way out way out but we see exoplanets i mean we see you know we can
it's dark
when we come back segment two of star talk live the beacon theater The Beacon Theater! Yeah!
All right, so among the 60 moons, 60-plus moons,
there are a couple of moons that rise up in their significance to those in search for life or interesting things going on on moon.
So what can you tell us about that?
So these are the two best moons there are.
Okay.
The first one is Titan.
It's about 50% larger than our own moon.
It has a thick atmosphere of molecular nitrogen.
It has a thermal structure that's like our own Earth here.
And so in some sense it's a mini-Earth
except that it does not have oxygen in it,
free oxygen in its atmosphere.
And it has organic materials in its atmosphere.
And those organic materials we suspected
would be found on the surface
in liquid form and we didn't find
them at first and we didn't find them after a year
or two and then finally we found
that they went to the poles. The liquids
on Titan are liquid hydrocarbons
that are ponded at the poles
and... That's a word? Ponded?
Ponded. That's cool. I like that word.
Where's their phone? No, it's good. I like it.
We made it a word here and now if it wasn? No, it's good. I like it.
We made it a word here and now if it wasn't previously a word.
Okay.
I think it was a word.
So liquid hydrogen, like methane.
Methane and ethane.
Yeah, simple.
So methane's the gas that comes out of your stove typically if you live in a city.
So that's flammable.
That's very flammable.
Can I ask a question about moons just for the audience?
I do know the answer to this, but the difference between
a moon and a planet is
that the moon orbits
Yes, and they're generally smaller.
Generally smaller. Are there some
moons that are bigger than the planets?
No, I don't really think so.
I didn't either. It was only when you said generally
that I got confused. I was just covering my butt.
So, Eugene, if the moon were bigger
than the planet,
the planet would be the moon
and the moon would be the planet.
Yeah, yeah.
That's what I figured
until you said generally.
And then I was like,
I need, I have a question now.
They're made of like
the same kind of cool stuff, right?
The cool stuff
but not the same stuff.
Right.
Well, they're all different
but do moons have
elements in common that
you know...
Do moons have...
Do moons all share certain
elements that...
They're all made of cheese. And by elements, I mean like
stuff. All right, let me help
you out here. Yeah. Okay. Help them
out.
That was a nice passing of the book. All right, let me help you out here. Help them out. Yeah, yeah.
That was a nice passing of the book.
So in the Saturn system, for example,
the moons are largely made of water ice because it's so cold out there that water becomes,
you know, it's like a rock.
You get to Uranus and then you get to Neptune,
which are much farther out.
You have moons that actually have methane on their surface, solid methane.
Solid methane?
Yeah.
So you cool the gas down, you liquefy it, cool it some more, then you get a solid,
and that's laying around the moons of Uranus and Neptune.
Yeah, and also liquid nitrogen.
I mean, you know, most of our atmosphere, I mean, a solid nitrogen,
most of our atmosphere is I mean, solid nitrogen, most of our atmosphere is molecular, gaseous nitrogen.
But by the time you get to Neptune,
we've got nitrogen on Pluto.
You heard a lot about nitrogen flowing on the surface of Pluto.
Yeah, you used to hear about it.
Oh, stop.
But to Vanessa's point...
Hey, let's leave time to get to my favorite moon.
The best moon.
Vanessa, just to be clear.
Yes.
The fact that the moon is comprised of ingredients
that are essentially identical to Earth's crust
is one of the factors that led us to suggest that the moon was formed
by a sideswipe of a planetesimal in the early solar system, scattering countless tons of
Earth's crust into a ring of debris around Earth that would later coalesce and form what
today we call the moon.
Hallelujah.
But didn't they just study the moon rocks that they've got in 1969 and they just realized
that the collision that created the moon was not a graze, it was actually something a lot
more impactful.
This guy reads up on everything.
You've got to watch out for him.
Yeah, yeah.
We've got to watch out.
So the question is, how deep did it actually graze?
Exactly.
And it could not have gone too deep because if you get too deep in Earth, on Earth, We got to watch out. So the question is, how deep did it actually graze? Exactly.
And it could not have gone too deep,
because if you get too deep in Earth,
on Earth, when Earth was molten in its early days,
the heavy stuff fell to the middle,
the lighter stuff floated to the top. So nearly all of Earth's iron and platinum and iridium and gold
is in our core.
And if you side-swiped enough to reach the core,
you would scatter the heavy elements into what would become
the moon, and the moon would have
an appreciable amount of heavy elements, and it doesn't.
It just doesn't. For something that
size, it should have a whole iron core
and it's got no...
So I shouldn't go to the moon to get
any platinum. Correct.
Well, now I need
a new thing to do in February.
So I just want to be clear.
You asked a completely sensible question,
and that question, when applied to the Earth-Moon system,
led to an entire new understanding
of the formation of the moon.
Just...
So which planet is a candidate to have sideswiped us? What's that? Which planet is a candidate to have sideswiped us?
What's that?
Which planet is a candidate to have sideswiped us?
We think it may have been completely destroyed.
Oh, just it's gone.
Is that what the asteroid belt is now or something?
Asteroid belt, yeah, it's got a lot of debris,
but if you add it all up, it doesn't come to much.
Okay.
It comes to about like 5% of the mass of the moon.
Right.
It's very, it's very...
Kind of like us.
It wouldn't have had to be a planet-sized thing,
and it's likely that the projectile broke up and is now part of the moon.
Can I offer an alternate hypothesis?
Yeah.
Space ray.
Space ray.
Laser gun.
Gamma ray.
Gamma ray.
Laser gun.
It could have been.
What level of feton are you? I can't remember. What level? Cameray. Cameray. Yeah. Laser gun. It could have been.
What level of Phaeton are you?
I can't remember.
What level of Phaeton?
Can't divulge it.
All right.
So we had Titan.
But if we're going to look for life, which inspires so much of our invested emotion and
energy in space exploration, Titan doesn't sound like the place we would find life as
we know it.
Yeah. It would be very difficult to find life as we know it. Yeah, it would be very difficult to find life
as we know it. It wouldn't look like a goat, or
it would be like super not a goat.
Yeah, yeah, not a goat.
Right. So,
are you asking him about his Quintinism?
Is that what you were asking? Earlier, but we
moved on.
So, what else is
tantalizing with regard to life?
So, to me, the most provocative and most thrilling result we found
is that this little moon called Enceladus,
which is no bigger across than England, I mean, it's very small,
has geysers shooting out that extend hundreds of miles above the surface.
In fact, if you follow some of them,
they go tens of thousands of kilometers away from Enceladus,
and they form the E-ring.
But these geysers, we now know after being there...
Well, just a sec. Saturn's rings have been lettered.
Yes.
One of which is called the E-ring.
One of which is called the E-ring.
Okay, gotcha.
I think the Pentagon has an E-ring, I think, doesn't it?
Oh, does it?
I don't know. D-ring?
I've got a phone that has a ring.
How many rings does Saturn have?
Don't ask those questions.
Let me finish one thought at a time.
I can only handle one thought at a time.
All right.
So tell me about Enceladus.
Go.
You know we don't count things anymore, right, Eugene?
Yeah.
Yeah.
We don't learn.
Thank you.
Wanted one last counting.
So E-ring.
I mean, Enceladus.
Go.
Enceladus.
So these geysers, we know, come through four major fractures at the South Pole,
which is a really unique, interesting terrain.
These are fractures in the ice.
In the ice, in the ice shell, sorry.
There's an ice shell that exists, lies on top of a global ocean of salty liquid water
that is suffused with organic materials. And we know that because after being there a while,
we figured all this out.
And then later on in the mission,
we actually send the spacecraft through the plume
to pick up material and analyze its composition.
So, like, we got this down pat now.
Do you have that much remote control
over what next orbit your spacecraft took. You know how you
operate drones? Yeah.
No, never mind.
Wait, so when you say organic material, what do you mean?
Like what constitutes organic material?
Kale.
Kale.
Did you say cake?
Kale.
Did we find space kale?
Close to it. Close enough.
But simple stuff like, you know, things, compounds that contain carbon and hydrogen and oxygen and nitrogen and things like that.
Those are the basic...
Tofu.
What?
I'm kidding. Sorry.
The basic bioelements that you and I are made out of.
Yeah.
Plus a lot more, but especially you.
Yeah, yeah.
He's laughing.
Okay, so Carolyn, I'm less impressed that there are organic materials there
because you just listed some of the most common kinds of atoms in the universe. The question is, is Enceladus in a kind of state where we can think of it
containing life as we know it?
Yes, because it has an ocean and we...
Why is it, it's outside the Goldilocks zone.
It has a subsurface ocean. Okay, I see where you're going with this. It has a subsurface
ocean and we found through whatever it's been now,
nearly 60 years of exploring planets,
both from ground-based observations
using telescopes and our spacecraft,
that there are several moons in our solar system
that have subsurface oceans.
Liquid oceans.
Liquid water.
Something had to be melting them,
and it's not the sun.
Isn't every ocean a subsurface?
Not the Pacific.
But isn't it sub?
No, sub means it's under the ground.
Think of it that way.
Except the ground on Enceladus is ice.
Wait, wait, wait.
I got it.
Wait.
The top of it starts under.
The surface.
It's on the surface of the body.
Because I was like, what are you thinking of?
Wow, I'm doing a really bad job here.
It's like when you have a chocolate cake, the frosting is on top.
The cake is sub-cake.
It is.
And then sometimes there's a layer of frosting that is sub-cake.
Do we have that?
Do we have frosting on?
Just to be clear, Vanessa.
I see, I see. Vanessa, until recently, the North Pole Ocean is an ocean under a layer of ice.
So your question was not out of nowhere.
I mean, you can't have oceans on Earth under layers of ice.
Yeah.
You used to be able to.
Used to be able to, yeah.
Thank you very much.
Can I ask a dumb question?
You referred to be able to. Thank you very much. Can I ask a dumb question? Yes.
You referred to the South Pole.
How do we gauge north and south on a moon in space?
The way it's spinning.
We know how...
I got you.
Ready?
Ready?
Hold out your right hand.
Okay?
Like this.
Curl your fingers.
If your fingers curl in the direction of the rotating
object, your thumb points to the North Pole.
Wait, but Venus rotates the other way, so what would the North be reversed on Venus?
Right, so if anything that seems to rotate this way, you take a hand, do that, and then
the North Pole would be down.
Okay, so Venus' North Pole is south of everyone else's pole? North Pole and the solar system?
Because doesn't it rotate?
It's called the right hand rule to establish what is north.
Sure.
Yeah.
I got that.
Yeah.
So go on.
So, okay, let me finish this.
That was a great question.
Great question.
What is north?
Let me finish this story.
That's why we can all agree what is north no matter what object we're looking at.
Well, that guy doesn't agree over there.
All right.
So where were you?
Go.
So liquid water, organic compounds that we know come from the ocean,
and it's being heated by tidal flexure.
Okay.
So it's in a resonance which makes its orbit eccentric.
Sometimes it's far away from Saturn.
Sometimes it's close.
And that means that the tidal forcing varies, and that's how you get tidal energy injected
into one of these bodies. There's enough of it to keep the ocean stable, and so this is what NASA
has been saying for decades now, would be the formal requirements that we would want to know
existed on a body, so that we'd mount the next kind of wave of exploration
and go there particularly to look for life.
And so that's where we are with Enceladus.
So the Goldilocks zone that is so celebrated
can exist in other ways outside of the traditional Goldilocks zone.
There really is no Goldilocks zone as it pertains to distance from the sun.
But there is a Goldilocks zone in the sense that...
Well, there is not.
No, it's just because all you need is something that...
A source of heat.
Whether or not it's the sun.
Yeah, but you ultimately need something like tidal energy.
How warm are the oceans?
What?
How warm are those oceans?
Well, we don't really know,
but they have to be at least, you know,
the temperature of liquid water, like 0 degrees Celsius or 32 degrees Fahrenheit.
And they've got to pack some punch if you're blowing geysers 100 kilometers in the sky.
That's not hard to understand because the weight of the overlying ice shell
forces the water up the cracks.
And then there's also volatile materials like we've seen ammonia.
In Japan, they have special toilets that do that also.
Yeah, they do.
Do we want to go there?
They're dangerous, these things, right?
Are you serious?
I have a question about, okay, so if you're looking
for life
on that moon, has anyone
ever thought, maybe this is very irresponsible,
but has anyone ever thought like, well, what if
we just threw a bunch of bugs in there?
Why would you want to do that? Well, just to see
if they could, like, live and
then you
could create, like, a new... This is not an aquarium.
I mean, we're not... But, I know,
but wouldn't it be so cool and then come back
five years later and they've all grown up
and...
Like... Neil, help me out.
This is just an idea.
We put enough trout that when we get there again,
we can fish.
Is that really so bad?
Okay, so NASA has an entire office
called Planetary Protection.
Yeah, they do.
And their goal is to preserve planets,
this would include moons,
that may have life
from contamination of life from Earth
and to preserve life on Earth
from any bugs that might accidentally
be brought back from our planetary mission.
It's called forward and backwards contamination.
Forward and backwards contamination.
I don't know that those planets have that with us.
So why are we like taking such deep things?
They don't have an agreement, a treaty.
Yeah, like they never said to us,
like we'll do this for, you know what I mean?
It feels sort of one-sided.
So until we know that a planet is completely sterile,
we want to be really careful.
That's why.
So Carolyn, you are also part of the Voyager team, which had messages for aliens that might find this spacecraft.
How old are you?
It has escaped our solar system.
And so this movement to try to contact extraterrestrial life,
be it microbial or what we might call intelligent,
it's been going on for a while.
But some people might ask,
since the Voyager record contained data
that would allow aliens to triangulate back
to find out what planet in the galaxy this was launched from.
Yes.
This is basically our return address.
Right.
Do you give strangers your email address?
Yes.
Are there humans that have DNA in common with you?
If they're in space.
Actually, I do.
If they're in space, apparently.
Actually, I do.
You do?
I do.
It's on my website, Cyclops.org.
Yeah?
Yeah. Okay. Yeah.. You do? I do. It's on my website, Cyclops.org. Yeah? Yeah.
Okay.
Yeah.
Yeah, Vanessa, do you?
No.
I'm just saying.
I'm curious about the, it's not the ethics of it, but the sensibility of alerting aliens.
And we all know what aliens will do when they find humans.
We've seen this many times played out in the movies.
So,
this is... Didn't you tell this to
Carl Sagan at the time that he put the
and he and Andrew
put the record on the spaceship?
No, I did not.
Okay. No, I did not.
Everyone was very hopeful.
Everyone thought it was...
Well, you know, it's on a spacecraft that, you know, is fast
to us, but it's going pretty slow. It's not going to get
too far, you know. I mean,
it's, you know. But we
have been, there
are people, myself
included, who wanted to send
messages into the galaxy
encoded on
transmissions coming from the most
powerful radio dishes we have here on the earth.
The Arecibo telescope is one. Frank Drake, a famous radio astronomer, started this in 1974.
He relayed a message to M31, which is a globular cluster in our galaxy. Actually, it was a
demonstration of the power of the transmitter on that telescope,
which they had just brought online. And he and his creativity and his just exuberance and wondering
about life elsewhere constructed this message that was encoded on the signals. And they sent
it into space. Very celebrated thing. And I wanted to do it again, except do it better. And there's even a website where I describe this.
But suddenly there is afoot this movement of people
who think that this is a terribly dangerous thing to do.
It includes Stephen Hawking.
Yeah.
It does.
It includes, who else, Elon Musk.
Yes, and they think that we are endangering the planet
to let aliens know where we are.
We endanger ourselves when one civilization encounters another
in the history of life on Earth.
Right, so the extrapolation is, you know,
so a much more powerful advanced civilization encounters us.
It's going to be like humans encountering flies
and they'll just want to, like, squish us and, you know.
We're already doing it. That's my argument. That's the counter argument.
What is the counter argument? I get to hear counter argument.
And the counter argument is not due to me. People have been saying this for a long time now. But
the idea is that any civilization that is advanced enough to come knocking on our doorstep
has already filtered out.
I mean, if it got that far, it has to be benign,
because if it wasn't benign, it would have destroyed itself.
So...
Yeah.
I just feel like even if this advanced civilization
is so much more advanced that we're like ants relative to these aliens,
then whatever they want, even if it is enslaving me, I kind of
feel like that would be the right thing to do anyway.
You know.
Because, I mean, if they're so smart,
if they think that, you know,
I should be basically, you know,
the coffee boy or something, then I'll do that.
This is a guy who has no trouble with authority figures.
Well, no, because they know everything,
so they must know what's right for us then.
And it might be squashing us like bugs.
Can I just clarify, you're making a pro-slavery argument?
Yes, he is.
Wow.
As long as it's an advanced enough civilization
that I believe you think needs coffee?
Is that the...
I mean, I've heard that...
That you would get them coffee.
They would come here...
How do you think they stay awake on those long interstellar flights?
It's definitely Starbucks.
Wait, wait.
So you were saying that a sufficiently intelligent alien species that made it here must, number one, be benign.
Otherwise, with that technology and power, if they were evil, they'd be evil to each other and destroy one another,
as we were on the brink of a few decades ago, possibly even decades to come.
And so, fine.
And now you're going to say they're so smart,
they have our best interest in mind.
Well, they'll know what's right better than we'll know what's right.
Yeah, I think so too.
I think that they'll be so evolved, literally evolved,
and they will appreciate life because they will have studied.
They probably know already what's going on in Enceladus.
What I was going to ask is what have we said to them
and doesn't it also matter what we say?
Like if we're like, oh
everyone's nice here, you guys should stop by
or if we're like
No, it's usually our coordinates
like where we are, you know, we're built
on DNA, this is what
we look like. Is it ever like a paella recipe
or anything?
That they can try this thing and be like,
this is fun. I wonder if they have more of that.
And they come and they all want paella.
Wait, wait.
Plus, if they show up
and there's some
appendage sticking out,
maybe that's not
what you should shake.
Because you don't know alien anatomy, for example.
I'd love to pull on an alien penis
as a sign of friendship.
How did we give them our coordinates and stuff?
Do we just think that they know our...
Well, you know, you have to make certain assumptions.
It's actually a very, in all seriousness,
this is a very
interesting,
fascinating intellectual exercise
to go through to figure out how you would
communicate with
an alien
organism. You have to assume...
They're not going to speak English.
But they would know some French.
They'll know...
I would freak out if an alien landed in my backyard and said,
I would just...
Okay, that won't happen.
I'd be drooling in the corner.
It wouldn't happen.
Telepathic, but only in French.
Some people think Gerard Depardieu was an angel from another world.
So you'd have to assume that they know the geography of the galaxy
and that they know about electromagnetic radiation and all its properties
and they know physics and maybe they have math too or something like it
because they got here. I mean they had to get
here from you know
thousands, tens of thousands
hundreds of thousands of light years.
Yeah they didn't just fold
space on a lucky guess.
Alright so Carolyn you are hopeful and
I'm delighted to hear that. You're more
hopeful than I am because there's
look at how
tribal we are human to human and somehow
you're thinking we wouldn't be human tribal against aliens or vice versa.
But there's no guarantee that we're going to make it. We may be one of these failed
civilizations if we don't get our act together. We haven't, right? We haven't passed the test yet.
So we may just go by way of all those civilizations
that just destroyed themselves,
and we're not going to get to participate
in the nirvana that awaits all the peaceful...
Well, hopefully that'll be a future generation.
What gets me is...
There are all these outer space treaties that the UN comes up with and peaceful use of outer space and friendship in outer space.
And I'm thinking, I have very little confidence in that because why would you think that on
Earth we like killing each other, but in space, oh, that's a place to be friends.
You don't think ISIS would be super nice on the moon?
I'm just saying.
I am not convinced.
I'm not convinced that we will treat each other better in space
than we do on Earth until we know how to treat
each other better on Earth.
All right, it's time to wrap up all this talk about death and AI.
We're going to take your questions on everything cosmic about the future of the human race
on Earth or in space on StarTalk.
All right, let's go straight on in. If you come from someplace other than New York,
I would welcome to know your point of origin.
Sir, go ahead. What's your question?
I come from 10 blocks away.
10 blocks away. What country is that?
Exactly.
So my question is,
Elon Musk has been doing a lot of stuff in SpaceX
on launching stuff into space,
but it seems like his underlying motive
is really to colonize Mars to some extent.
And he just wanted to get kind of,
I guess, everybody's opinion about...
You'll only get one,
because otherwise we'd be here all night.
But go ahead.
Very good.
Well, that was what it was.
I assume you want mine.
I'm all for it.
So specifically, you want a comment on...
On Elon Musk's plan to colonize Mars with SpaceX.
Sean, what do you feel about colonizing Mars?
My understanding was that Elon wanted to get to Mars himself.
I don't think he cares that much about the rest of us coming along.
You know why?
Because I think he said he'd rather die on Mars than live on Earth.
That's what he said.
And I repeat, I think it's obviously something that we should do is to send people to Mars
because we want to study it, but I don't think we should consider that any savior for the
human race because, again, look at Arizona.
I mean, look at the Sahara.
It's like if we can't grow trees in the Sahara, then we're not going to be able to do much
on Mars.
There you go.
Thank you.
Next question.
And where are you from?
Hi, my name is Carla. I'm from an unfascinating place also called New York.
And my question is more on the social side.
You guys mentioned about Carl Sagan making a marketing move
as far as taking images in outer space and all that.
What do you think is going to take for the 21st century,
the quote-unquote millennial kind of generation,
to get interested in space and actually propel the next generation towards
space exploration. Alien invasion.
Is there something working on that
generation now, do you think? Yeah, I'm sorry.
Oh, yeah, so there's a next generation
coming up, the millennials and those
who follow them. We had
our sort of pale blue dot and our moon launch
and our forces of
science and technology to inspire
us. Do you see anything on the horizon?
Is that an okay paraphrase of your question?
Yes.
Yes, good.
Thank you.
Is there anything on the horizon that you see?
Memes.
Well, I...
Memes!
That's right.
Internet cats.
Yes.
This is what you guys have created for yourselves.
Carolyn, any reflections there?
I think the biggest thing that's going on
in the planetary science community now
and also at NASA
is this idea that we're going to go
and find life in the solar system.
And so it's going to take work to do that
because it's actually a pretty hard question
and we've got to figure out what the best way is to do it.
But it's not going to happen.
I'm going to be gone,
but probably before that great big discovery
happens, and we're going to need
young people, people who are young now
to kind of carry the
torch.
Today, you were as young as you were
when you joined Voyager.
It's going to happen at some point.
There's really good reason to
think we actually might find life
in our solar system.
We've just got to, you know, mount the, you know, get going on it.
All right. Thank you. My name is Zach from the smellier side of the river, New Jersey.
Across the boat. Yeah, exactly. Kind of bouncing off of what you said about life within our solar system. I think everyone here is in agreement that there's life in the universe,
and that's kind of where I'm going at in the universe as a whole,
coming from a non-religious man.
I am Jewish, but talking about religion.
Hold on. Stay with me. It's okay.
Boy, babe.
No, wait. I can't hear him.
It's a good one, Eugene.
But the universe in general, I was wondering what you guys think,
because I know when you put your head on the pillow at night,
you think of what is the universe and what is the functionality of it.
Is there a greater cause? Is it meant for a purpose?
Is it built for something?
In three minutes.
I'd love to know what you guys think.
Simply, as fast as you could, what you think the universe is.
Okay, Vanessa, this is for you.
Oh, my god.
So what is the
universe to you, I guess?
I do think that there has to be
life on so many different
parts of the universe, and so
that everyone's coexisting, but
I don't see why we can't just go to another
planet,
throw a couple things out, see what comes back.
But I do think it's to have all these different species coexist.
Do you, Neil, think that we might be more likely in a matrix
than in a real universe?
Do you ascribe to that philosophy?
I remain convinced that if we figure out a way to make a perfect computer simulation
of a world, or of a universe, and in that simulation there is what we would call life,
and that life has free will as programmed in, that they could then decide that they want to make a simulation
of a universe themselves.
And if each one of these simulations reaches a point
where it makes a simulation of the universe,
then most universes that will exist will be simulations.
And if that is the case, then the likelihood that we exist will be simulations.
And if that is the case,
then the likelihood that we now are in a simulation compared with being the first actual universe
that created the life that made the simulations is very high.
So I...
Why are there no dragons then?
I would be deeply intrigued.
I'm intrigued by that possibility that we are the playthings of a higher intelligence
and every now and then they get bored so they throw in, you know, they stir the pot a little.
And they say, okay, Donald Trump say this today instead of something else.
Everything is a frenzy and then everybody, and then they're watching
this and they're entertained by it all.
Peter, thank you for your time. Thank you for my panel. Vanessa, Carolyn, Sean, Michael.