StarTalk Radio - Cosmic Queries: Tour of the Solar System
Episode Date: March 28, 2013In this Cosmic Queries episode, Neil deGrasse Tyson answers fan questions about exploring the solar system, the possibility of life on Europa and black holes. 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.
I'm your host, Neil deGrasse Tyson, your personal astrophysicist.
And this is StarTalk.
Chuck, nice. Chuck, welcome back to the show.
Thanks for having me back, Neil.
I will not soon forget the Super Bowl show, the football show.
You were on fire.
Dude, that was great fun.
You were out of control.
That was great fun, man.
Ready to get
back into it today and get high on science. We're going to get really high on science. Today's show
is a tour of the solar system. Sweet. A tour of the solar system. I think every now and then you
got to take a tour of your backyard. Fantastic. That's what you got to do. Will you be our tour
guide? I will be your tour guide, but I have some help from two very competent colleagues of mine.
One of them, Steve Squires.
He's the scientist behind the Mars rovers.
Wow.
You know, we all read about the rovers, and you saw pictures of the terrain.
He's in charge.
These are his babies.
Did they blame him when they broke down?
No, they blame him when they save.
These things should have broken down long ago.
Oh, really? Way long ago. Oh, really?
Way long ago.
Oh, cool.
So he's been saving them.
He's their savior, as it were.
We also will be hearing from Heidi Hamels.
She's a senior research scientist at the Space Sciences Institute in Boulder, Colorado.
Oh, cool.
Colorado, yeah.
Yeah, so that should be fun.
But you know, you know who's a friend of StarTalk Radio?
I do know.
Bill Nye.
Bill Nye, The science guy.
Were you influenced by him
when you were a kid? Absolutely.
And by kid, if you mean 20,
yes.
So I
got a hold of Bill Nye. By the way,
lately he's the executive director of the
Planetary Society. He finally has
a real job.
He gets a paycheck and everything.
Honestly, I always wonder, what else
does he do? What does he do? Except show up on
TV and talk to kids. Exactly. No, no.
He's actually talking to grown-ups now, including
Congress. Okay. So he's going to
start us off and put us in a
good way, getting us to think
about where we are in the solar system
and where we might one day go.
The most recognizable image to anyone on Earth is the Earth, as seen from space.
When you look above you at night these days,
I hope you notice occasional very bright objects among the stars, other planets.
Humans have spent centuries trying to know all about them.
By exploring the solar system, first with our eyes, then telescopes, and these days with extraordinary spacecraft, we have come to know that Mars is cold,
Venus is hellishly hot, Saturn would float if it could, and our Earth is but one world among
thousands of objects whirling about a common star. Between and beyond the planets are all
manner of objects, comets, moons, asteroids, distant icy plutoids, and dust.
Often as a young scientist, I'd be given a textbook with a place to write my name inside
the cover. Below that, my street, my city, and state. But I'd go on. United States, North American
continent, Earth, and sun. Because we've explored our solar system, I could have added the third
rocky ball from the medium-sized star.
Have a look around.
Your life is changed every day by explorers who've pondered our place in space.
For StarTalk Radio, I'm Bill Nye the Science Guy.
That's my boy, Bill Nye.
Nice.
Okay, I just got to ask you that.
What's that?
Plutoids?
Plutoids.
Is that like a cosmic mint?
Plutoids. A Plutoid? That's? Plutoids, yeah. Is that like a cosmic mint? Plutoids.
A Plutoid?
That's a great product name there.
That would be.
We should start that out.
But what would your breath smell like?
That's the question.
Hopefully not cosmic dust.
Yeah, you've got to watch out what stuff smells like out there.
Plutoids.
So the solar system, its formation was four and a half billion years ago from a huge giant gas cloud.
And right in the middle of that gas cloud, where it's densest and hottest, that's where you get the sun.
And that's what forms first.
And then you get planets and other stuff forming around it.
It was a day when if you learned about the solar system, it would be like an enumeration of the planets one after another.
But, excuse me, the solar system is so much more than that. From the moons around planets to the dust in the plane of the solar system to asteroids, some of which hit the Earth, comets.
It's a very rich, dynamic place.
And in case you really want to geek out on the sun, the sun has an actual official classification code.
Okay.
It's a G, capital letter G, Arabic numeral two, Roman numeral five.
So G25 in three different languages and letters and alphabets and number systems.
Each one means something different.
If you want to geek out on the sun, that's what it is.
Now, why G25?
Because that really, I don't get it.
G25.
G tells you what the temperature is. Which is a gazillion degrees. That's what it is. Now, why G25? Because that really, I don't get it. G25. G tells you what the temperature is, okay?
Which is a gazillion degrees.
That's what G stands for.
Really?
No.
For a moment, I almost felt smart.
I was like, I got it right.
So a star is in order of decreasing temperatures, O, B, A, F, G, K, M.
So the sun is one of the cooler of the stars.
Oh, yeah.
You know it is, baby, because it's here in our solar system.
It's cool, but it's actually white hot.
And the sun is often portrayed as yellow, but it's actually white.
Just go outside and look.
It's white.
In broad daylight, it's white.
Right.
What happens when it gets low on the horizon, then you can look at it without burning out your eyes.
Hey, look, the sun is yellow-orange because the atmosphere just changed its color.
So those are particles in our atmosphere that actually change the color.
Actually, what the particles do is scatter the blue light out of the rainbow, leaving behind the red and the orange.
So basically, if you were in space, you would look at the sun.
It'd be white no matter what.
It'd be white no matter what.
No matter how you put your head.
Burn your eyes out and that'd be the end of it.
That'd be the end.
The last experiment you did.
So what I've got is, let's go to my colleagues. They visited
me in New York in my office.
Steve Squires, Principal Investigator of the
Mars Rovers, Professor of Astronomy
at Cornell University, and
Heidi Hamel, who is
total planet babe. She's
all about planets. Sweet. And so, let's
find out what we all had to talk about.
So Steve,
I keep thinking of you as like Mr. Mars.
Anytime I look up in the sky and Mars is there, I'm thinking of your two rovers there.
When you look up at Mars in the night sky, do you think that too?
Would you just wish you were there?
Mars looks different to me than it used to.
It used to be, I can remember before we launched them, looking at Mars in the night sky, and it just looked impossibly far away.
So now it's your backyard.
I look at it now, and I think I know this place.
You're a kid playing in your backyard.
It's a sandbox.
It feels totally different to
look at Mars now than it did a long time ago.
Do you see it, though,
when you see it in the sky, do the pictures
from the rovers, is that what you see?
Kind of, except I don't think in terms
of pictures. I sort of feel like I know
what it would be like to be there.
Not just the pictures of the surface,
but I know what the clouds in the sky look like.
I know the seasons. The rovers are his
avatar.
It kind of feels like that. Yeah, it does.
We've experienced Mars
through those rovers for so long.
I kind of feel like I know what the place is like now.
Yeah, but are you now sort of, do you have Mars on the brain
so that it's hard to think about the rest of the solar system?
No.
Heidi, you get around the solar system, right?
I sure do.
Yeah, I look at a lot of other planets besides just Mars.
We don't have that.
We don't have those images.
We don't have those rovers on the surface.
So I still think a lot in pictures.
Plus half your planets don't have surfaces.
Well, that's true, yeah. I have to ask, what's your favorite? You know,
it changes with time. It's just like picking your children, right? Yeah, exactly. I don't
play favorites. You know, at different times, different planets do different things. And
so if you were looking at, you know, Uranus at Equinox and it's busted out with clouds.
And that's the official, it's not Uranus, right? It's Uranus. Yeah, you know, Uranus at Equinox, and it's busted out with clouds. And that's the official, it's not Uranus, right?
It's Uranus.
Yeah, you know, I kind of gave up on that whole thing.
I gave up on that.
You were sure.
For a while, I was on a mission to educate people about Uranus.
And then my own hometown paper wrote a story about those yellow lights, you know, that they were trying for cost efficiency.
And the headline.
Oh, for the nighttime.
Yeah, yeah, yeah. For streetlights lights right street lights at the night so that
it would be darker less light pollution and and some people didn't like it and
they ran a headline about the Uranus colored lights and that's what I gave up
I'm calling Uranus that's more traditional but you know when Voyager
flew by Uranus in 1986, it was dead.
There was like maybe ten
clouds. It really stretched the
contrast of the atmosphere. So Uranus was a big ball of gas
with no surface features. Basically, yeah.
I mean, that's right. If you and I were on a
spaceship outside it, when
Voyager flew by, when Voyager flew by
it didn't see anything. And so everyone
thought it's dull and boring. Well, that's not what
it's like right now. It's in a completely different season. And so everyone thought it's dull and boring. Well, that's not what it's like right now.
It's in a completely different season.
And the atmosphere is turning on,
and there's bright clouds, and there's dark spots,
and there's all kinds of activity on this planet.
And it's my favorite right now
because it flies in the face of what we were taught in school about Uranus.
You know, we were taught that...
I remember the books.
Uranus was an example of a boring...
It's the boring one, yeah.
That's right, which is just absolutely not true right now.
And the books are starting to finally catch up with reality.
Now, Mars, of course, is a dynamic place.
Yeah, it's changing all the time.
I mean, it's got seasons very much like the Earth does,
very different at different times of year.
It's not only very much like,
it's almost exactly like the Earth does, right?
Yeah.
It's tipped how many...
25 degrees.
And we're 23.
23 and a half.
So it's almost the same. The year is longer, of course. It's tipped how many? 25 degrees. 25, and we're 23. 23 and a half. Yeah, so it's almost the same.
The year is longer, of course.
Rotates once in how many?
24 hours and 39 minutes.
And let me tell you, if you're operating rovers on Mars, that just plays havoc with your life.
Okay, next time that happens to me, I'll keep that in mind.
You know, you would think it would be...
Listeners, when you're operating rovers, just get ready for this.
You know, you would think it would be nice to be able to sleep in for an extra 39 minutes each day,
but it kind of adds up in weird ways.
It gets out of sync, doesn't it?
It gets out of sync.
Well, you think it's like a slow jet lag.
We lived on Mars time for months.
We had Mars alarm clocks, Mars stopwatches.
We had food service on Mars time, maid service in an apartment on Mars time.
We had blackout curtains on the windows, so you couldn't tell if it was daytime or nighttime.
It was like being in a casino.
Did you adjust to it, or did you really feel human and terrestrial because your bodies couldn't adjust to it?
Our bodies could adjust to it just fine as long as Earth did not interfere in our lives.
In other words, the blinds on the windows were absolutely good.
That was fine, and if you have to live a day that's 24 39
it's perfectly easy to lead unless you have to interact with real human beings in the real world
on earth you were basically like a spouse or you walk your dog or something that sort of thing so
what you're saying is you were basically in a mars habitat yeah we kind of we kind of were but then
there would be events you know somebody would decide there had to be a meeting at 8 o'clock in the morning Pacific time,
and if it's in the middle of my night, I was still expected to show up, and that was when it got difficult.
Wait, I thought you were in charge.
Not when it came to interacting with the press.
When we had press conferences, they were at 8 a.m. Pacific, and that was it.
Telling CNN that we want to have our press conference at 3 a.m just didn't
work real well so the press likes likes likes your rovers i think you do wow geeking out on the
planets dude that was like geekapalooza isn't it great everybody has a favorite planet you know
how many people in the street you know just well that's my favorite plan for these 11 reasons yeah
well most people you ask what's your favorite planet? They're going to be like, the one I'm standing on.
Not the one, well, this one used to have no surface features and then cloud layer.
There's a whole analysis of what they follow and why, and it keeps them pumped every single
day.
Yeah, I'm just glad to know that Mars has seasons.
Yes, yes, and polar ice caps.
And polar, yeah.
This accounts for its allure in the history of science fiction writing why people have
chosen mars as a target for life more so than other planets oh darling i can't wait until we
take spring in mars not only that what what we have on mars is not only the rovers they're
orbiters as well so that we can know where we might send the rovers next otherwise you're kind
of driving blind and what's good about rovers is it's a mobile geologist, and you don't have to go there.
Plus, the rover doesn't have to come back.
So if you send a human being, they usually want to come back.
Normally.
You got to feed them, you know.
You got to send a misanthrope.
I hate you guys.
Yeah, yeah.
Get out of here and go to Mars.
So one of the things we found recently in Mars is methane emanating from the sides of ravines in Mars.
Really?
Yeah, and methane is the kind of gas that is produced in the anaerobic digestion of food.
Okay.
So actually, Mars is a big, giant fart, is what you're saying.
Well, no.
Did I say it?
Did I?
I did.
Okay.
Chuck, that's why we have you on the show.
That actually sounds more like Uranus.
Or should I say Uranus?
No, Uranus.
We just got schooled on that one.
Uranus, that's what it is.
Uranus.
So after the break, we'll talk about the search for life and how the search for water is driving the search for life.
Because everywhere on Earth where you find liquid water, you find life.
Every place, including places like the dead sea the reason why they call it the dead sea they didn't have a microscope to tell what would do the backstroke in the but there are there are things alive in
the dead not fishes but there's other stuff that's alive for sure right and you are listening to star
talk radio follow us at star talk radio.net we are on facebookTalk Radio. And we tweet at, guess what, Chuck?
StarTalk Radio.
At StarTalk Radio.
And I tweet the universe at Neil Tyson and Chuck Nice.
I'm at Nice Chuck Nice.
Who said you were nice?
It certainly was me.
Because nobody else is saying that.
Nobody else is saying that, for sure.
I keep trying to convince people.
You're listening to StarTalk.
Stay tuned for another segment.
Welcome back to StarTalk.
Here's more of this week's episode.
Welcome back to StarTalk.
Here's more of this week's episode.
And we're talking about the solar system today, a tour of the solar system.
Basically, we have two of the world's experts to serve that up. One is Steve Squires, who runs the Mars rovers, which we've all heard about.
Everyone's heard about the rovers, even if you didn't know he was the man in charge.
There's a whole team, of course, but he's the main.
He's the top banana.
The top banana.
There you go.
And Heidi Hamel, who's an all-around planet geek tris i mean is that the word geek tris that
like you just made it up i like it we make it right on the spot and roll and so the solar system
is full of a lot of sort of alien worlds there are moons and planets and comets and asteroids and
and one planet is different from the next one planet is different from the next one.
Moon is different from the next one.
These are exotic places.
Yes.
Is there any place, one of these, you might want to visit one day?
Pandora.
I just love those blue people.
They're so adorable with their little tails.
I love them.
And they're so nimble on tree limbs.
Exactly.
You worry about me sometimes.
You know, because there's so much going on in the solar system, not everything has a perfectly circular orbit around the sun.
A circular orbit is the only orbit you can have and not hit something else.
Okay?
If you do not have a circular orbit, there's a chance you're going to get hit.
You're going to hit something.
Something's going to hit you.
Now, from what I understand, aren't there planets here in our solar system that have an elliptical orbit?
Yes.
No, not anymore.
Pluto.
Don't get me started on Pluto.
Take it outside.
Let's go back to Steve Squires and Heidi Hammel.
They're going to tell us what kind of a shooting gallery the solar system actually is.
Heidi, you go way back with the press.
My first encounters with you, as I think with many, were with the comet impact on Jupiter.
You were like the face of the comet.
The first impact on Jupiter.
There's more than one?
We just had another one in July.
Oh, I know about that.
I forgot all about that.
I've been busy.
I'm sorry.
I'm sorry.
It's an impact.
It's the size of the Earth kind of thing.
Big explosion.
So Jupiter's kind of asking for it, right?
Yeah, well, yeah.
Well, it's a big target.
Well, it's there to take one on the chin for us.
It's a big target.
That's really true.
Really true.
It's protecting us.
It's protecting us.
It's our big brother protecting us.
But yeah, my first interactions with the press on any large scale were back in 94 when we
were doing weather broadcasting from Jupiter live.
So what was going on every day on Jupiter?
Absolutely.
It was pretty exciting stuff.
Yeah.
So if that happens just in the last couple of decades,
this must be going on all the time, right?
We would think so.
We're not living in some special time when Jupiter's getting hit.
We thought we might have been lucky the first time,
and when it happened just exactly 15 years later,
we realized, hmm, maybe we aren't so lucky.
All right, here's a question.
Now that you know what to look for, now that you know what an impact on Jupiter looks like,
is there data mining you can do?
Can you go back to old pictures?
Data mining.
So it's like looking back at an old...
Even after the 94 impact, some folks went and did do that.
They went back and looked.
We had the Planetary Patrol telescopes.
I don't know if you're aware of that.
Network of 24-inch telescopes that were just studying Jupiter.
Creating an archive of data.
There's nothing like Shoemaker-Levy 9.
The big one, the 94.
So you would have seen it.
The pictures are good enough that you'd know.
Absolutely.
That's right.
And people do talk about the historical record.
There's reports of Cassini himself.
Not Cassini the spacecraft.
Cassini the guy.
Cassini the guy.
It's weird to think there are people with names after spacecraft.
What a coincidence.
When you say Galileo, we're talking about Galileo the guy or Galileo the spacecraft.
Cassini drew pictures of us.
Or the European navigation system, Galileo.
That's right.
Their counterpart to our GPS.
You've got to get some more astronomers' names in play.
He talked about Neil deGrasse Tyson.
He had a mission named after you.
You have to die.
Yeah, yeah.
You know what?
That's right.
These are named after dead people.
Yes.
Okay.
But people did go back and look.
And they haven't seen conclusive evidence in the past of any big events like this.
But I'll tell you, nowadays, these amateurs have terrific telescopes.
They have amazing CCD systems.
Allow me to clarify.
In most professions, if you accuse them of being an amateur,
it would be an insult.
Whereas in astronomy, amateurs are a badge of pride and courage.
And also, they do terrific science now.
There's a synergy between the professional astronomy community
that basically has the really huge telescopes
and the amateurs who have smaller telescopes,
but they're terrific and they have tons of time because the amateur just goes have smaller telescopes, but they're terrific, and they have tons
of time, because the amateur just goes
out at night and spends all night looking, whereas
And they're in every time zone. Every time zone
all around the world. With these big telescopes
like Hubble or the Keck 10
meter, you might get half an hour
a year. And that's all the time
you have to look at your objects. So we rely
on the amateur community
to feed us information
about things like impacts on Jupiter.
It was an amateur who spotted that
and alerted the professional community.
This later, the second impact.
The second one, that's right. So I'm sitting between
two very different kinds of scientists
now. One who, you, Heidi,
who are still using telescopes.
She's kind of behind the time.
No, I'm looking at things that are far away.
You're still looking at telescopes.
And Steve, you're just there, you know?
You don't worry about the optics.
You don't worry about bad weather.
Oh, we worry about both of those, my friend.
First of all, we've got optics all over these rovers.
Second, we are very, very sensitive to the weather on Mars.
But it is true that he can send spacecraft to his object
and get them there within a reasonable funding cycle.
Before he dies.
Before he dies.
Yeah.
If we want to start talking about planets around other stars,
we aren't going to be sending spacecraft.
Or even some of the planets in the outer solar system.
If you're talking about a mission to Neptune, the time scales for pulling that off are very long.
So that's why the Pluto mission, the New Horizons, that was like a light payload with some really huge engines to get it there.
That's right, yeah.
Yeah, that one was booking.
And it's still on its way, and we've got years to go before it gets here.
So it's humans attack the solar system.
That's what this is about, Jack.
I've learned some things, man.
Well, this is what we're, this is at the point of the show.
The thing I learned that most stuck out was that in astronomy, size matters.
Yes, it does.
Everybody has telescope envy.
Yeah, so whatever size is your, in fact, you go to astronomy conventions, how big is yours?
Right.
It's true.
But here's the problem.
At some point, you've got to carry the thing to the observing site.
And above a certain size, you just can't carry it.
You can't do it.
Yeah, you can't even do it.
Yeah, I know what you mean.
It's not me.
Chuck.
Chuck out of control.
Okay, let me set up. So what we have going on in the solar system is that planets are no longer just dots of light
with pretty atmospheric conditions that photograph through a telescope.
We can actually go there and look at surface features.
And so there's a whole frontier of planetary science called comparative planetology.
And if there's a mountain on one planet, look for a mountain on the other.
There's craters, valleys, riverbeds.
You compare one object to another.
And especially for the terrestrial
planets, Mercury, Venus, Earth, and Mars. They're small.
They're rocky. And so we
can learn about one by studying another.
For example, so
we can ask, well, while we've been going to Mars
for the past 30 years, guess where the Soviet Union
back in the old days, guess where they went the most?
Venus. Really?
Yes. And they had a whole series of Venera spacecraft.
Venera spacecraft.
Yes, that's what they're called.
That's right, Venera.
So that's the genitive.
Kind of sounds like a medical condition.
That's all I'm saying.
I'm just saying.
Well, it's funny that you should ask.
Man, I got a bad case of Venera, man.
Let me tell you.
Go ahead.
So what happened was astronomers, when we figured you try to come up with words for names for where you come from.
If you're from Earth, Earthling.
Okay.
If you're from Jupiter, you're Jovian.
I did not know that.
You didn't know that?
You didn't.
By Jove.
By Jove comes from?
Jupiter, of course.
Jupiter.
Of course, yes.
Okay.
And Venus would be Venusian.
Venusian.
If you come from Venus, you're Venusian.
Okay.
And so the reason why we came up with Venusian is because the proper genitive form of Venus is venereal.
And the medical doctors got to that word before we did.
I am so pissed off.
That is so cool.
I am so angry about that.
They took the word right out from underneath it.
Right out from under you guys.
And why name it after Venus?
Because it's the diseases common to love and beauty and all that go with it.
That makes sense.
And that's Venus, the goddess of love and beauty.
Oh, my God.
I'm just happy to know that this little condition I have that it needs antibiotics is so romantic.
TMI right there.
TMI.
Oh, it'll clear up.
Don't worry.
Now, here's the problem on Venus.
Yeah, if we sent you to Venus, it would all be cleared up.
Exactly.
Because it's 900 degrees Fahrenheit there.
Oh, sweet.
There's a runaway greenhouse effect going on there.
And that makes it very hard to investigate because your metals melt.
It'll melt lead, for example.
You can't have lead solder or anything.
Only Superman could do that.
So that's hot. Is that right? Yeah, it's laser
vision. Okay. Yeah, we should do it.
What's funny, he couldn't see through lead,
but yet he could melt it with his heat vision.
Interesting. How crazy is that? That's crazy.
You know, we're going to do a special show on the physics of superheroes.
Get out! Should we get you back for that?
Aw, man, if you don't, I will never
speak to you again.
Alright.
We'll work that one out. And so, of these destinations, man, if you don't, I will never speak to you again. All right. That's not – we'll work that one out.
And so of these destinations, Pluto is on our targets, the ex-planet Pluto.
It's got what's called the New Horizons mission.
It's booking.
It's the fastest hunk of hardware we have ever sent anywhere.
It's on its way to Pluto right now.
It'll get there in 2015.
And we're headed there.
And so –
That's one hell of a road trip, Matt so that's one hell of a road trip it's one
hell of a road trip and it's it's on hugely powerful rockets because the principal investigator
of that mission wants to make sure you get to pluto before he dies see that's how that works
this is the number one rule uh good trip to my mother-in-law's house scientific investigation
and so they're all met we have spacecraft going to comets, to asteroids,
and so we're all over the solar system now.
It's a fun time to be alive
because the solar system is no longer this distant place.
Wow.
And when we come back after the break,
as I promised before, we're going to talk about life,
the search for life in the universe,
what are the conditions that a planet or an object have to have
in order for there to have life as we know it?
Right.
Because maybe this could be
some stuff that life
is you don't know.
You're listening to
StarTalk Radio.
Stay tuned.
More up next. Welcome back.
Here's more of StarTalk.
Now, we're not going to Pluto to look for life.
It's too cold.
It's too far.
It's too dark.
It's too everything that we can imagine that could serve life.
But there are other places in
the solar system that could serve this need. And we talked to two of my favorite colleagues,
Steve Squires and Heidi Hamel, too. We had a geek fest in my office.
Geeking out.
We were geeking out on the solar system.
Just giddy. I can hear the giggling now.
We were giddy. Let's find out what they say about our search for life in the solar system.
We love the planets, but the real goal is we want to find life.
Mars has been a seductive prospect for life since the beginning, since Lowell.
Okay, Percival Lowell thought he saw Mars.
A little misled, but he had the right idea.
But his heart was in the right place.
Yeah, his heart was in the right place.
You know, he's the one who invented the canal story.
Go quickly tell us that, the canal story.
Well, basically what happened was that people looked through a telescope.
A hundred years ago.
Yeah, a hundred years ago, in moments of brief atmospheric clarity,
they could see what looked like a fine network of straight lines on the planet's surface.
And they were so straight and so regular that the people looking at these concluded that not only were they evidence of life, they were evidence of intelligence life.
Now, they were correct, but the life was at the wrong end of the telescope.
What they were seeing was an optical illusion.
And didn't know enough about illusions to…
Yeah, and in fact, there's nothing of the sort on the surface of Mars.
But as we've learned in recent decades,
Mars is very interesting in other ways. Nonetheless, with possible evidence of running water.
So the two water places that I know of is Europa, one of Jupiter's moons, one of my favorite places just to think about, to dream about, because I want to go ice fishing on Europa one day. And of
course Mars, possibly under surface aquifers. And Heidi, how is Europa kept warm? It's not the sun.
No, it's really kind of a gravitational tidal pumping
with the other moons around Jupiter that kind of bend it.
You know, the analogy I use is if you take a credit card
and you bend it back and forth, a lot of it gets warm.
I try not to do that.
With old credit cards.
A piece of coat hanger.
A coat hanger.
A paper clip.
How's that?
You bend a paper clip back and forth a whole bunch, and you touch it, and you feel it gets warm.
Same thing is happening with this moon.
You know, Europa and Io, they're kind of getting flexed and bent, flexed and bent, and it heats them up.
And you know what?
Don't forget about Enceladus when you're talking about water worlds.
Enceladus, we now know, is just moon of Saturn.
A little tiny one, too.
It's also tidally heated.
Tidally heated,
the same flexing to heat it up, but it's just
blasting water out of its southern pole.
Geysers, basically.
Are these not ice volcanoes?
It's liquid water coming out.
It's water.
You can think of it as volcanoes, it's just that the magma
is water instead of being molten rock.
It's pressure that builds up and it spews water. It's water.
I mean, if you flew a spacecraft
through it and collected it and you were able
at room temperature, you could drink it. And of course
every place on Earth we have liquid water, we have life.
So therein is the temptation.
That's where the temptation lies. What would you bet on, Mars or
Europa as the place
if there's life other than Earth in the solar system
that we would find it?
Today.
Today.
Yeah, see, that's the question.
You're talking about life today or life ever existed because it's a different question.
Today.
I would say Europa.
Europa, not Mars.
If I knew how to do submarines on Europa, I wouldn't be screwing around with rovers on Mars.
Yes, sir.
What if you dug down into Mars?
Doesn't it get warmer?
Yeah, it does. Can't you? It does Mars? Doesn't it get warmer? Yeah, it does.
And you've got water as you get further down.
I don't know how to drill down hundreds of meters on Mars.
But you don't know how to drill on Europa.
But if they're really...
Yeah, I mean, they're both huge technological challenges.
But if there truly is...
Wait, wait, just how thick is the ice on Europa, approximately?
We don't even know for sure that there's an ocean there.
Well, I saw the picture.
It's unproven.
It's likely. I saw the ice.
It looks like... I can make a picture for you,
Neil. It looks like, but you're going to spend
tens of billions of dollars
doing a submarine mission to an ocean
that you don't know for sure exists?
Okay. Alright. We've got work to do
there still. We've got to learn a lot
about the environment. I want this to happen in my lifetime. We've got work to do there still. We've got to learn a lot about the environment.
I want this to happen in my lifetime.
We've got two key people here.
Eat healthy, get lots of exercise, okay?
Go on that low-calorie diet.
1,700 calories a day. Get an extra year per year or something.
Wear my seatbelt, too.
But you know what?
But you know what might happen in your lifetime is we may find Earth-like planets around other stars in a distance from that star where water could be liquid.
Yep.
I'll tell you another one that could happen in your lifetime, and that is bringing rock samples back from Mars that contain definitive evidence one way or the other.
Fossilized.
On whether or not there was life at the location from which the rocks came and ideally you get to choose your own rocks yeah see i mean we have rocks from
in fact i'm sure you've got them in your museum here we've got rocks from mars here on earth in
the form of meteorites but these are rocks that literally fell from the sky we don't know where
on mars they came from we didn't pick them they came here. They don't have the pedigree that you need to order them.
Mars is a very, very complex place geologically.
And to be perfectly honest, most of Mars is pretty boring.
Most of Mars is just covered with lava, very dry, very desolate.
Solid lava.
No evidence that water was there.
Solid lava.
Yeah.
Yeah, solid lava.
And, you know, very ancient volcanic rocks and evidence for life you're not going to find in a place like that.
To find it, you've got to go to the special places where you have the right minerals, the right sediments,
the kind of stuff that can preserve evidence of ancient habitable watery conditions.
And those are few and far between.
Okay, so we have Mars as a good example of where to look for evidence of past lives.
Europa as a place to look for possible evidence of current life.
You could look for evidence of current life on Mars as well, but you probably have to drill deep, and that's hard.
GeekFest continues.
Man, that was serious.
Now, Chuck, do you realize that interview in my office took place a few weeks before the announcement that we found Goldilocks planets orbiting exoplanets orbiting distant stars?
Yeah, where they're close enough or far enough from the sun where they can have water.
At the right distance, not too close.
At the right distance, not too close, not too far.
You evaporate too far.
Hence the Goldilocks, right?
The Goldilocks, exactly.
And so for them to say, this will happen in your lifetime, then happen three weeks later,
you know.
You ask, you receive.
Yeah, like they forked it up.
We have a tweet that someone asked from a tweet.
This is Trudvertite.
That's the Twitter handle.
Is the thought of exploring and terraforming Mars even relevant if we can't even take care of our own planet?
Yes, it is.
Let me just field this one.
Okay, this one goes to Chuck, apparently.
We're going to need a place to go.
After we mess up the Earth.
Because we're screwing this one up royally, buddy. going to need a place to go. After we mess up the Earth. Because we're screwing this one
up royally, buddy. So
we need a place to go. Okay, so
you have the opposite sense of this question.
This question is, we don't deserve another planet
if we can't take care of our own. You're saying
it's because we can't take care of our own that
we gotta have the planet. Absolutely.
My reply is, if you
have the power to terraform another planet,
you have the power to fix your own planet.
Wow.
Just think about that.
Wow.
If you have that much control over geoengineering, what's a few degrees warming?
Just crank the knob that lowers the temperature back again.
Exactly, because you'll know what to do.
You'll know exactly what to do.
Basically, you'll be able to create a geothermal thermostat.
A thermostat.
Exactly.
Awesome phrase.
Chuck. Yeah. I don't even know where that came from. A geothermal thermostat. A thermostat. Exactly. Awesome phrase. Chuck.
Yeah.
I don't even know where that came from.
A geothermal thermostat.
Dude, hanging out with you is rubbing off on me.
This is great.
This just felt good.
I felt smart for a second.
Still don't know what I said.
And so we got these.
Chuck.
And so you got these places.
You know, Heidi raised an interesting point,
and that if you're looking around for other solar systems, star systems,
we don't know yet how common our star system is.
Okay.
We've got these eight planets.
Get over it.
We've got eight.
We've got sort of Earth and Mars sort of in the Goldilocks zone.
But we have these places outside of the Goldilocks zone kept warm.
In the case of Jupiter, it's Jupiter's gravity stressing the moons.
By the way, in the old days, people said, let's find a planet with life.
But you can have a moon.
If the moon is big enough, why not have life on a moon?
Right.
And if the host planet keeps the moon warm, you don't even have to be in the Goldilocks zone of the host star.
So now when you guys were talking about this, wait a minute, tidal heat.
Oh, tidal heat, yes.
Is that when the gravity moves the planet back and forth or stretches it?
It stretches.
And that creates the heat.
It's a stretching kind of gravity.
And it does that to the oceans of the Earth that stretches them.
And Earth turns inside and out of the stretched the to the water the oceans of the earth that stretches them and you earth turns
Inside and out of the stretched ocean on the earth. Yeah. Oh, yeah
You're listening to star talk stay tuned for another segment
Welcome back to StarTalk.
Here's more of this week's episode.
There's a recent data that was released that had a set of a thousand stars, a thousand planets orbiting other stars.
And so it tripled the number of total. So we went from 500 to now 1,000 stars. 1,000 planets orbiting other stars. And so it tripled the number of total.
So we went from 500 to now 1,500 stars, 1,500 planets.
1,500 planets.
In orbit around stars that are not the sun.
Okay.
And out of those, there's about 40 or 50 Goldilocks planets that were found.
So there's about 40 or 50 other Earths floating around out there. That could sustain liquid water.
That could sustain our life.
Or Jupiter-sized planets with moons that are outside the Goldilocks zone.
So we're casting a pretty wide net in the search for this.
Do you realize this whole field, the search for life in the universe, it's called astrobiology?
That's a term, if you went 20 years ago, the term never existed.
No one knew how to use it.
Nobody even knew.
It was not really part of the parlance of scientific discourse.
It was a field essentially invented by NASA.
Right.
So 15 years ago, that would have been just called BS.
Well, you need data.
Data converts BS to real, to real discourse.
Carl Sagan was, of course, a very early proponent of the search for life in the universe.
And we can call him the father of astrobiology in that sense.
Although there were other people who had done sort of Earth father of astrobiology in that sense. Okay.
Although there are other people who had done sort of Earth-based bio experiments that preceded
that.
But do you want to stay current on the frontier of astrobiology?
Right.
There's an online NASA magazine called AstroBio.
AstroBio.
.net.
.net.
AstroBio.net.
For all of your astrobiology needs, it's AstroBio.net.
So now one of the great frontiers here is where you have to ask, how are you going to explore the nearby planets or the distant ones?
Do you send a robot?
Do you send a human?
Do you send a robot to do what a human can do?
This is a major issue, a major question, and I brought that up with Steve Squires and Heidi Hamel.
And let's see what their take is on it.
One of them is a geologist and one of them is a telescope astronomer. Let's see
where they take us on this issue.
Given the choice, because it costs
more to send people than to send robots,
if you had the choice of sending 30 robots to 30
different locations on Mars, or you
going yourself, as a
scientist, not as
adventure explorer, Indiana Jones
hat-wearing expedition head, I'm
talking about... How about we talk about sending you instead?
Yeah, wouldn't he be able to come back?
I forgot about whether we should bring him back.
Now, look, I see where you're going with this.
Where's the trade-off?
The answer, my personal answer, is that I would send a human.
Okay?
And I'll give you two reasons for that.
One reason is that what humans can do is so much greater than what robots
are capable of now or for the foreseeable future. Wait a minute. Every time we send a human,
they bring out a black box that makes the measurement. Well, why not make the robot
pull out the black box? No, no, no. There's much more to it than that. Okay, Neil, I have spent the
last 20 years of my life trying to design and operate robots that can replicate what a human
might be able to do on the Martian surface.
What our rovers do in a day, you and I could do in about 30 seconds.
That's one thing.
The other thing is that humans have a capability to synthesize information,
to digest it, to figure out the next thing to do, and to improvise.
Robots can't improvise the way humans can. But it's not just that we're not there yet.
I mean, Moore's Law gave us this ever-increasing rate of...
I think you've got a couple of million years of evolution to go to that point.
We're very, very far away from that.
The other reason that I would send humans...
So the brain is still a pretty good device.
It's a perfect processor.
Very, very good.
The other reason I would send humans is that humans have a capability to inspire that robots simply lack.
Someone once famously said nobody's ever going to give a robot a ticker tape parade.
And there is something to that.
It's a little squishy.
It's a little intangible.
But I will tell you that our rovers were built by people like me who grew up in the 60s and 70s
watching Mercury and Gemini and Apollo on TV and dreaming of sending spaceships to Mars someday.
And now we do that, okay?
We were inspired by what we saw as kids,
and I think sending humans does that in a way that robots never will.
So I think there's a real value to it.
Where do you want to go? We could send you somewhere.
And bring you back.
You know, there's a lot of great stuff in the solar system to see.
And just picking off the low-hanging fruit, you know, I'd love to...
Where would you go?
Where would you go? The next place that I would go... The fruit wouldn't have to be low-hanging. Reachanging fruit. Where would you go?
The next place that I would go... The fruit wouldn't have to be low-hanging.
Reach for it. Where would you go?
I'm so intrigued by the outer solar system
because we know so little about it.
There's good scientific juices flowing here.
Yeah, we just know absolutely nothing about it.
You're drawn to where you are most ignorant.
Yeah, because that's where you learn the most.
Most people are only comfortable where they know the most.
Oh, no.
I want to uncover some of these things that we just don't know.
So give me a place.
I would like to go to Neptune.
Neptune?
Yeah.
Neptune's beautiful.
I'd love to go to Neptune.
Or Neptune.
Yeah.
Because that planet system, not just the planet itself,
but it's got an incredible ring system that's chunky,
and it's not smooth and beautiful like Saturn's.
It's clumpy.
It's very dynamic.
It's changing with time.
It's got a terrific moon called Triton, which was captured.
It wasn't born with Neptune.
It was some object that just got, oops, too close, and Neptune stole it.
Stole it.
Grabbed from interplanetary space.
It's like a twin to Pluto.
And we know that it has... Triton isary space. This thing is like a twin to Pluto. And we know that it has...
Triton is a twin to Pluto.
Triton is a twin to Pluto.
We know it has ice volcanoes.
It's got geysers.
We've seen them.
And so this moon is dynamic and changed.
So the whole planetary system has something for everyone.
I mean, we just learned so much.
So you're attracted by the abject ignorance of what we know of the system.
That's what attracts you. Well, it's just really alien.
It's a really alien place.
It's very different.
I mean, these ice giants are just so different from Earth.
I mean, they don't have surfaces.
You couldn't land on it.
But you could land on one of its moons, and that would be great.
See, since I'm fundamentally like a galactic person, not a planet person,
my destination within the solar system has nothing to do with how much we know.
It's just what looks the coolest.
So where would you go?
I would so go to Titan
and just watch Titan.
That's the one with the rivers of methane.
It's got lakes and the poles.
Lakes of liquid methane.
And meanwhile, you're orbiting Saturn.
Well, I'll tell you,
if you want to go there,
you really better eat healthy
and get plenty of exercise. It's going to take a while.
Alright, thanks guys
for being on Star Talk.
Chuck, you know, if we find life on Europa,
you know what we should call it? What? The Europeans.
Yeah.
Thanks for listening to Star Talk Radio.
I hope you enjoyed this episode.
Many thanks to our comedian,
our guest, our experts,
and I've been your host, Neil deGrasse Tyson.
Until next time, I bid you to keep looking up.